KR101499626B1 - a water mill - Google Patents

Abstract

The present invention relates to a hydraulic turbine of a small hydraulic power plant, which facilitates the production of electricity by easily obtaining power using the flow of water and, more specifically, to a hydraulic turbine of a small hydraulic power plant having a vane actuation unit to promptly and accurately spread a vane using a water pressure flowing into a feed pipe; thus improving the performance and durability of a rotor, and significantly improving the efficiency of power. To achieve this, the hydraulic turbine of a small hydraulic power plant having a vane actuation unit has a hydraulic turbine installed in the feed pipe to induce water in a water tank of a building; a water treatment plant or a reservoir to flow and be supplied for drinking, and agricultural and industrial purposes which has the rotor having the vane inside; and which has an actuation unit to mechanically or electronically actuate the vane.

Description

A water mill of a small hydropower generator equipped with an operating means of a vane,

The present invention relates to a water turbine of a small hydropower generation apparatus capable of easily generating power by using a flow of water, and more particularly, to a water turbine having a water flow such as the supply of water for drinking water and agriculture and industrial water from a water tank, A water turbine is provided in the water supply pipe for guiding and supplying water, and a rotor provided with a vane therein is installed, and operation means for allowing the vane to be operated mechanically or electronically, so that water pressure flowing into the water supply pipe expands the vane quickly and accurately To thereby improve the performance and durability of the rotor, thereby remarkably improving the power generation efficiency.

Generally, power generation is mainly carried out by hydroelectric power, thermal power, and nuclear power. Recently, solar power, wind power, and tidal power, which are clean energy, have been actively studied due to environmental pollution and oil price surge. And hydropower generation using water of the present invention have been put to practical use, and a lot of researches for producing electric energy and using it efficiently have been carried out variously.

Accordingly, although the solar cell is installed in a unit building or a home to produce electric power required by itself, such a solar cell has a disadvantage that it is difficult to supply and receive a stable electric power due to rainy season, snowy or cloudy days, , There is a problem that installation cost is large.

On the other hand, hydroelectric power generation, which generates electricity by the power of water, which is pollution-free natural energy, is a power generation method that uses electricity of locational energy and kinetic energy and draws mainly a part of the higher river to a lower river. And the turbine is rotated by a drop energy by increasing the water level by blocking the proper place of the river.

This method is a method of rotating a rotor (rotor) of a generator by rotating an aberration or a propeller using a force generated by a flow rate or a drop of water, and air pollution hardly occurs.

However, in order to achieve such hydroelectric power generation, it is necessary to increase the water pressure or the elevation of the dam to increase the efficiency of the power generation by accumulating the dam, increasing the water level, It has a disadvantage in that normal development can not be carried out in the case of a rainy season or a flood where the change of the quantity is severe.

Generally, hydroelectric power generating by rotating propeller or aberration is capable of securing the speed or drift of water above a predetermined level, so that hydroelectric power generation is possible. Therefore, power generation facilities are located in valleys or dams upstream of the water flow path, There is a problem that it can not be supplied quickly to facilities that are actually needed, and it is almost impossible to install large-capacity power generation facilities required for housing, social facilities, factories, etc., Do.

In recent years, there has been a demand for a power device that can be easily obtained in the living environment, such as solar heat or wind power,

One of them is to fix a rotor equipped with a vane in a water supply pipe for supplying water by inducing a flow of water such as supply of drinking water, agricultural water or industrial water from a water tank of a building, a water purification plant or a reservoir, There has been actively researched researches on a small-sized hydroelectric power generating apparatus that allows a small-sized power generation while the rotor is rapidly rotated by unfolding the vane.

A number of techniques are known for the aberration of a conventional small hydropower generator using a rotor as described above.

Among them, the 'hydropower generation apparatus to be installed in the water supply pipe' of the registered patent No. 10-0780316 includes a casing installed in a water supply pipe from a reservoir or a water purification tank or a water tank of a building and having an inlet and an outlet, And a generator connected to the rotary shaft of the rotor to generate electricity according to the rotation of the rotor. The hydrostatic generator includes a body fixed to a rotary shaft, And a plurality of vanes rotatably mounted on the outer circumferential surface of the body by hinges at regular intervals. Each of the vanes is upright in the radial direction of the body and is held in an upright position (A) And a tilted position (B) at which the pressure received by the water supply is minimized, It has become famous.

KR 10-0780316 (registration number) 2007.11.22. KR 10-2001-0081592 (publication number) 2001.08.29. KR 10-2010-0135578 (publication number) 2010.12.27.

However, the aberration of the conventional small hydropower generation apparatus as described above has a plurality of vanes mounted on the outer circumferential surface of the rotor at predetermined intervals so as to be rotatable by the hinge, and the vane is pushed and rotated by the pressure of the incoming water, The conventional rotor is configured such that the vane can be opened by the water pressure, but the operation force of the vane may be changed according to the intensity of the incoming water pressure, Is lowered.

Further, the aberration of the conventional small hydrostatic power generator has a problem that a plurality of vanes provided at regular intervals on the outer circumferential surface of the body of the rotor are simply deployed depending on the water pressure, so that there is a limitation in improving the power generation efficiency.

Accordingly, the present invention has been made to solve the above problems,

And an operating means for mechanically or electronically operating the folding vane is installed on the inner side of the rotor so that the folding vane can be rotated by the folding vane, And when the folding vane is positioned in the drain pipe, it is quickly and accurately pinched by the operating means so that the operating force of the vane regardless of the strength of the water pressure flowing into the water supply pipe And to provide an aberration of a small-hydro-electric power generating apparatus equipped with operation means of a vane for improving the efficiency of the rotor by dramatically improving the efficiency of the rotor.

It is another object of the present invention to improve the reliability of the aberration by improving the performance of the rotor by mechanically or electronically operating the folding vane.

In order to achieve the above object, the present invention provides an aberration of a small hydrostatic generator installed in a casing installed in a water supply pipe for supplying water and equipped with a rotator that rotates while the vane is expanded by the water pressure of water flowing into the water supply pipe,

A hollow casing provided between a water supply pipe through which water flows and a discharge pipe through which water is discharged; a cylindrical rotor housed in the casing and provided with a rotation center shaft so as to be rotated by water pressure introduced from the water supply pipe; And a folding vane installed at a predetermined interval on the outer circumferential surface of the rotor to rotate the rotor while being spread by the water pressure of water flowing from the water supply pipe,

And a vane mechanical urging means or a vane electronic urging means for urging the folding vane when the folding vane is positioned in the water supply pipe.

The aberration of the small hydrostatic power generator provided with the operating means of the vane according to the present invention is such that a folding vane is installed in the rotor rotated by water pressure and the folding vane is deployed by the operating means, And the water pressure flowing into the water supply pipe can be applied to the folding vane to drive the rotor quickly and accurately, thereby improving the power generation efficiency.

Further, the present invention has an advantage that the durability and reliability of the aberration can be improved by allowing the folding vane provided in the rotor to be quickly deployed at the correct position by the operating means without depending on the strength of the water pressure flowing into the water supply pipe.

FIG. 1 is a schematic perspective view of an aberration of a small hydrostatic power generator provided with operating means of a vane according to the present invention,
FIG. 2 is a schematic sectional view and a partial enlarged view of aberrations of a small hydrostatic power generator provided with operating means of a vane according to the present invention,
3 is a schematic cross-sectional view of the aberration of the small hydrostatic power generator provided with the operation means of the vane according to the present invention,
FIG. 4 is a detailed view of the aberration of the small hydrostatic power generator provided with the operation means of the vane according to the present invention,
5 and 6 are schematic cross-sectional views of another embodiment of the aberration of the small hydrostatic generator with the operating means of the vane according to the present invention,
7 is a state diagram for a conventional aberration.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 to 4, the aberration 100 of the small hydrostatic power generator provided with the operation means of the vane according to the present invention,

A hollow casing 110 provided between a water supply pipe 101 into which water flows and a discharge pipe 102 through which water is discharged,

A cylindrical rotor 120 accommodated in the casing 110 and provided with a rotation center axis 121 so as to be rotated by the water pressure flowing from the water supply pipe 101,

And a folding vane 130 installed at a predetermined interval on the outer circumferential surface of the rotor 120 to rotate the rotor 120 while being spread by the water pressure of the water flowing from the water supply pipe 101,

A vane mechanical pressing means 140 or a vane electromagnetic pressing means 140 for pressing and folding the folding vane 130 when the folding vane 130 is positioned at the water supply pipe 101, Means 150 is provided.

Here, the rotor 120 is rotatably installed in the hollow casing 110 through the rotation center shaft 121, and the rotation center shaft 121 is rotatably supported by the hollow casing 110 And is eccentrically installed from the center to the upper side.

The folding vane 130 provided on the rotor 120 can be rotated and unfolded by the water pressure of the water flowing into the water supply pipe 101 on the lower side of the hollow casing 110 The folding vane 130 is brought into contact with the inner surface of the hollow casing 110 while the water flows out into the discharge pipe 102 at the upper side of the hollow casing 110, A space portion is not formed so as to be lubricious.

Such a configuration can be easily implemented by a person skilled in the art by a known technology, and a detailed description of the structure is omitted.

The folding vane 130 is installed to be rotatable by hinge means 122 provided at both ends of the rotor 120.

Thus, when the folding vane 130 is positioned (exposed) to the water supply pipe 101, the vane mechanical pressing means 140 is actuated and pressurized to be mechanically unfolded. At the same time, the water flowing into the water supply pipe 101 The water pressure further pressurizes the folding vane 130, so that the folding vane 130 is stably rotated and unfolded, so that the operation of the rotor 120 can be smoothly performed.

The vane mechanical pressing means 140 includes a push rod 141 installed inside the body of the rotor 120 and capable of reciprocating movement so as to elastically push the folding vane 130, An operation rod 142 provided in the body of the rotor 120 and connected to an end of the push rod 141 in parallel with the rotation center shaft 121, And a cam-shaped support plate 143 connected to both sides of the casing 110 to be connected to the casing 110 so that both ends of the operation rod 142 can be supported while being supported on the outer circumferential surface.

Here, the push rods 141 are preferably provided on both sides of the folding vane 130, but the present invention is not limited thereto.

A plurality of the operation rods 142 are installed as many as the number of the folding vanes 130.

When the rotor 120 is rotated about the rotation center shaft 121, the vane mechanical pressurizing unit 140 configured as described above rotates the plurality of operation rods 142 together with the rotor 120 .

Since the operation rod 142 is rotated while being supported on the outer circumferential surface of the cam-shaped support plate 143, the operation rod 142 is moved up or down according to the shape of the cam-shaped support plate 143 The rotation is repeated.

The push rod 141 connected to the actuating rod 142 is also actuated by the action of the actuating rod 142. When the actuating rod 142 rotates in accordance with the shape of the cam-shaped support plate 143, The lifting or lowering motion (lifting / lowering motion) is performed by the rod 142. [

Accordingly, when the push rod 141 rises, the folding vane 130 installed on the circumferential surface of the rotor 120 is pushed (pushed) so that it can be quickly and accurately spread. Here, the folding vane 130 may be provided with a groove (not shown) for pressing the push rod 141 while allowing the end of the push rod 141 to be stably mounted on the folding vane 130 at a portion where the push rod 141 is pressed.

When the push rod 141 pushes the folding vane 130 and expands and presses the folding vane 130 having the water pressure applied thereto through the water supply pipe 101, 120 can be stably unfolded and rotated.

The cam-shaped support plate 143 is provided on one side of the cam portion 143a and a cam portion 143a inserted in the recessed portion 120a formed on both sides of the rotor 120, And a fixed bracket 143b that is fixedly connected to the rotor 110 and is fixed regardless of the rotation of the rotor 120.

The push rod 141 is provided with the push rod 141 when the operating rod 142 rotates along the outer surface of the cam portion 143a when the rotor 120 is rotated, An elastic spring 141a is installed to allow the folding vane 130 to be operated while being elastically lifted or lowered.

The push rod 141 is inserted into the rotor 120, and a mounting bracket 141b is installed in which the elastic spring 141a is installed.

Further, the push rod 141 is provided with a support protrusion 141c for supporting the elastic spring 141a.

Accordingly, one end of the elastic spring 141a is supported by the inner wall surface of the body of the rotor 120, and the other end is supported by the support protrusion 141c, thereby exerting an elastic force.

The shape of the cam portion 143a provided on the cam-shaped support plate 143 can be appropriately changed through design changes according to the size and shape of the rotor 120. [

The aberration 100 of the small hydropower generation apparatus having the vane operating means according to the present invention as described above causes the folding vane 130 to expand when the water flows into the water supply pipe 101, 120 is rotated. At this moment, the operation rod 142 rises and rotates along the outer peripheral surface of the cam portion 143a to push the push rod 141.

Then, the push rod 141 pushes the folding vane 130 to forcibly unfold it. At this time, the elastic spring 141a is elastically compressed.

As described above, when the folding vane 130 is positioned (exposed) to the water supply pipe 101, it can be quickly and accurately unfolded by the water pressure of the incoming water and the pushing force of the push rod 141, It is possible to improve the reliability of the aberration.

The folding vane 130 receives the force of water continuously inflated by the water pressure of the inflow water and the pushing force of the push rod 141 and rotates the rotor 120 so that the position of the water pipe 102 The inflow water flows out through the water pipe 102 and then the folding vane 130 is lowered while the operation rod 142 is rotated along the surface of the cam portion 143a, The push rod 141 is also lowered along with the elastic force of the elastic spring 141a.

At the same time, the folding vane 130 is pressed and folded on the inner wall surface of the casing 110.

Such an operation is repeatedly performed so that the rotor 120 is rotated stably and the rotation center shaft 121 is rotated at the same time.

Then, power generating means (not shown) connected to the rotation center shaft 121 is operated to produce electric power.

As described above, according to the present invention, since the rotor 120 is stably rotated, the rotation center shaft 121 rotated by the rotor 120 is also stably rotated.

Therefore, electric power can be stably produced and supplied through the power generation means connected to the rotation center shaft 121.

6, the vane electronic pushing means 150 is installed on the inner wall surface of the body of the rotor 120 to electronically inflate and retract the folding vane 130, And a gyro sensor 152 installed to sense the rotation angle of the rotor 120 or the folding vane 130 while being connected to the electronic actuating body 151. [ And a signal obtained from the gyro sensor 152 is transmitted to the electronic operation member 151 by being connected to the electronic operation member 151 and the gyro sensor 152 so that the electronic load 151a can be projected And a controller 153 for controlling the operation of the apparatus.

When the rotor 120 or the folding vane 130 is positioned in the water supply pipe 101 or the discharge pipe 102, the vane electronic pressure means 150 having the above- The controller 153 detects the position signal.

Then, the controller 153 operates the electronic actuating body 151 so that the electronic rod 151a provided in the electronic actuating body 151 projects the folding vane 130 so as to be able to press the folding vane 130.

That is, when the folding vane 130 is positioned in the water supply pipe 101, the electronic rod 151a is protruded so as to be able to press the folding vane 130 and the folding vane 130 The electronic rod 151a enters the inside of the electronic actuating body 151 and the folding vane 130 can collide with the inner wall surface of the hollow casing 110 to be folded.

As described above, the folding vane 130 can be stably deployed through the vane electronic pressing means 150 so that the rotation of the rotor 120 can be stably performed.

Accordingly, the rotation center shaft 121 is stably rotated by the stable rotation of the rotor 120. [

Thus, the electric power can be stably produced and supplied through the electric power generating means connected to the rotation center shaft 121.

The folding vane 130 is installed to be rotatable by the hinge means 122 provided at both ends of the rotor 120. The folding vane 130 is provided with a water pressure A foldable auxiliary vane 160 may be installed to allow the foldable vane 130 to be opened and rotated before (assisted) by the folding vane 130.

The folding auxiliary vane 160 is installed to be rotatable by the auxiliary hinge means 161 provided on the folding vane 130.

A leaf spring 170 having an elastic force may be further connected between the folding vane 130 and the folding auxiliary vane 160. Here, the plate spring 170 can be replaced by various kinds of elastic means having an elastic force.

The leaf springs 170 are preferably installed between the folding vane 130 and the folding auxiliary vane 160, but they can be installed more than one.

The folding auxiliary vane 160 may be installed on both sides of the folding vane 130 on both sides of the folding vane 130,

The operation state of the aberration 100 of the present invention constructed as above will be described below. Here, a case where the folding auxiliary vane 160 and the leaf spring 170 having elasticity are further connected to the folding vane 130 will be described.

When the rotor 120 is positioned at the inlet side of the hollow casing 110 while water flows into the hollow casing 110 through the water supply pipe 101, the folding auxiliary vane 160 The water pressure is applied while being unfolded by the restoring force of the leaf spring 170, thereby accelerating the rotation of the rotor 120.

When the rotation of the rotor 120 is accelerated by the folding auxiliary vane 160, water pressure continuously flowing through the water supply pipe 101 presses the folding vane 130, 130 are deployed to apply a rotational force to the rotor 120.

At this time, the vane mechanical pressing means 140 or the vane electronic pressing means 150 is operated to further press the folding vane 130 to unfold.

As the rotator 120 is rotated by the folding auxiliary vane 160 and the folding vane 130, the rotation center shaft 121 rotates.

Then, power generation means (not shown) connected to the rotation center shaft 121 is operated to produce electric power stably.

The flow rate of the folding auxiliary vane 160 and the folding vane 130 is discharged to the outside through the discharge pipe 102. At this time, the folding auxiliary vane 160 is moved to the outside of the hollow casing 110 It collides with the wall of my wall.

In this case, the leaf spring 150 installed between the folding auxiliary vane 160 and the folding vane 130 is elastically compressed. The folding vane 130 also contacts the inner wall surface of the hollow casing 110 and is folded.

At this time, the vane mechanical pressing means 140 or the vane electronic pressing means 150 is also operated, so that the folding vane 130 is folded.

This operation is repeatedly performed between the water supply pipe 101 and the discharge pipe 102, so that electric power can be produced stably and efficiently.

As described above, the aberration of the small hydrostatic power generator equipped with the operating means of the vane according to the present invention is fixed to the water supply pipe for guiding and supplying the flow of water, and the folding vane Wherein the folding vane is opened by the operating means when the folding vane is positioned in the water supply pipe, and when the folding vane is positioned in the drain pipe, the operating means (Folded) so that the operating force of the vane can be stably maintained regardless of the strength of the water pressure flowing into the water supply pipe, so that the performance of the rotor can be improved and the power generation efficiency can be improved remarkably.

In addition, according to the present invention, the operation of the folding vane can be mechanically or electronically operated, thereby improving the performance of the rotor and the reliability of the aberration, thereby improving the power generation efficiency.

100: aberration of a small hydrostatic power generator equipped with operating means of a vane
101: Water supply pipe 102:
110: Hollow casing
120: folding rotor 121: rotation center shaft 122: hinge means
130: Folding vane
140: Vane mechanical pressurizing means
141: push rod 141a: elastic spring 141b: mounting bracket
142: operating rod 143: cam-shaped support plate
143a: cam portion 143b: fixed bracket
150: Vane electronic pressing means
151: Electronic actuator 151a: Electronic rod
152: Gyro sensor 153: Controller
160: foldable auxiliary vane 161: auxiliary hinge means
170: leaf spring

Claims (5)

delete There is provided an aberration of a small hydrostatic generator installed in a casing installed in a water supply pipe for supplying water and equipped with a rotor which rotates while the vane is expanded by the water pressure of water flowing into the water supply pipe,
A hollow casing provided between a water supply pipe through which water flows and a discharge pipe through which water is discharged,
A cylindrical rotor housed in the casing and provided with a rotation center shaft so as to be rotated by a water pressure introduced from the water supply pipe,
And a folding vane provided at a predetermined interval on the outer circumferential surface of the rotor to rotate the rotor while being spread by the water pressure of the water flowing from the water supply pipe,
And a vane mechanical urging means or a vane electronic urging means for urging the folding vane when the folding vane is positioned in the water supply pipe,
The vane mechanical pressurizing means includes a push rod installed inside the body of the rotor and capable of reciprocating movement so as to elastically push the folding vane, and a push rod provided inside the body of the rotor, And an operating rod connected to the end portion of the push rod in parallel while being inserted into both sides of the body of the rotor and connected to the casing so that both ends of the operating rod are supported on the outer circumferential surface, Aberration of a small hydrostatic power generator provided with operation means of a vane constituted by a support plate.
3. The method of claim 2,
Wherein the vane electromagnetic pressing means comprises an electromagnetic actuator provided on an inner wall surface of the rotor and provided with an electromagnetic rod for pressing and pressing the folding vane electronically, A gyro sensor installed to sense the rotation angle of the folding vane, and a controller connected to the electronic actuator and the gyro sensor, for sending signals obtained from the gyro sensor to the electronic actuator to allow the electronic rod to protrude and retract The aberration of the small hydrostatic power generator provided with the operating means of the vane.
The method according to claim 2 or 3,
Wherein the folding vane is further provided with a folding auxiliary vane for rotating the folding vane by the auxiliary hinge means and a small spring having a vane operating means provided with a leaf spring having an elastic force between the folding vane and the folding auxiliary vane, Aberration of generator.
3. The method of claim 2,
Wherein the push rod is elastically lifted or lowered when the push rod is lifted or lowered while rotating along the outer surface of the cam portion forming the cam- The aberration of the small hydrostatic power generating device provided with the operating means of the vane further provided with the elastic spring for operating the folding vane.

Images