KR101552566B1 - Hydraulic power generating system) - Google Patents

Abstract

The present invention relates to a hydroelectric power generating system which generates electricity as rotating along the direction of vapor or fluid flow. The hydroelectric power generating system of the present invention includes: a power generating equipment housing which stands on the ground and has a rotary shaft; a rotor which rotates in a body with the rotary shaft by being combined to the rotary shaft; a number of rotation supports which are comprised in the rotor along a vertical direction to the housing; and at least one resistor plate which is comprised in the rotation support, and is combined to one side of the resistor plate through a hinge as being able to rotate. The rotation support is rotated by the resistance of the resistor plate as to the vapor or the fluid, and electricity is generated by the power generating equipment according as the rotary shaft rotates. According to the present invention, the rotation support is rotated by the resistance of the resistor plate as to the vapor or the fluid, and the resistance is generated according as the rotary shaft rotates, and thus electricity generation due to movement of the vapor or the fluid is done. By that a stopper is formed slantly in order for another side of the resistor plate to be inserted more by a random angle (by angle θ) to the rotation direction than one side, the resistor plate is stably supported by the stopper and thus separation of the stopper due to fluid velocity direction or centrifugal force can be prevented.

Description

HYDRAULIC POWER GENERATING SYSTEM

More particularly, the present invention relates to a hydrodynamic power generator, and more particularly, to a hydrodynamic power generator having a rotating plate provided at an end of a rotating plate provided at a direction perpendicular to the housing, And the electric power generation by the movement of the gas or the fluid can be performed.

Generally, hydroelectric power generation, tidal power generation, thermal power generation, nuclear power generation, wind power generation, and photovoltaic power generation are generally used as methods for producing electricity. Among them, thermal power generation and nuclear power generation facilities are used for operation A large amount of energy consumption, high technology, manpower, high-tech equipment and the like are required, as well as a considerable installation and maintenance cost, as well as the inverse function of generating a large amount of environmental pollutants which are particularly harmful to the environment.

Therefore, considering the domestic geographical conditions rich in mountainous areas where the three sides are surrounded by the sea and the good mobility of the wind, there is a great interest in the development of environmentally friendly, low carbon renewable green energy using wind or tidal power.

On the other hand, the conventional wind turbine apparatus which is installed / used the most heretofore is a so-called propeller type rotation, in which a power transmission unit is mounted on the upper end of a vertically installed support, and about three to four wings The conventional wind turbine generator having such a structure has a structure in which one rotary blade arranged in a constant radial shape within a predetermined diameter range is vertically mounted toward the wind direction, It is impossible to expect only a small amount of electric power generated by the rotational drive of the single rotary wing. Therefore, in order to increase the electric power generation, it is required to increase the number of the above-mentioned structures to a large extent in a large area. There is a limit to the place of installation and the amount of power that can be obtained compared to the investment cost.

In addition, conventionally, the exact position is determined only by the pushing force of the resistance plate according to the flow of water. However, when the resistance plate is heavy, it is difficult to utilize all of the pressing force.

Korean Registered Patent Publication No. 10-1026930 Korean Registered Patent Publication No. 10-1228298

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems described above, and it is an object of the present invention to provide a power generating apparatus and a power generating apparatus which are combined with a resistance plate to be rotated integrally with a rotation axis of a power generating apparatus housing, The present invention provides a hydraulic power generating apparatus in which a rotary support is rotated by a resistance of a resistance plate against a fluid and a resistance is generated as the rotary shaft is rotated to generate electric power by movement of a gas or fluid.

The second elastic member is elastically supported so that the auxiliary resistance plate protrudes to one side of the resistance plate so that the second elastic member is contracted by the centrifugal force generated as the rotating body rotates, And to prevent the overheat of the power generation device due to the reduced area of the power generation device.

According to an aspect of the present invention, there is provided a hydropower generator rotating along a direction of a gas or a fluid flow to generate electric power, the hydropower generator comprising: a power generator housing having a ground surface and a rotating shaft formed therein; A rotating body coupled to the rotating shaft and rotated integrally with the rotating shaft; A plurality of rotation supports provided on the rotating body in a direction perpendicular to the housing; And a resistance plate having at least one or more rotation support rods, wherein the resistance plate is rotatably coupled to one side of the resistance plate by a hinge, and the resistance of the resistance plate to the base or the fluid, The rotary support is rotated, and electricity is generated by the power generator as the rotary shaft is rotated.

The rotary support includes at least one support having a support portion rotatably coupled with the support plate at an end thereof.

The support portion includes an upper support portion and a lower support portion which are respectively formed up and down so as to face each other, and a rotation hole is formed on a lower surface of the upper support portion and an upper surface of the lower support portion, And the resistance plate includes a projecting pin having one side inserted into the fixing hole and the other side inserted into the rotating hole, and the resistance plate is rotated around the projecting pin.

The resistance plate may further include a first elastic member inserted in the fixing hole to elastically support the protruding pin, and may be removably attached to the supporting portion.

In addition, a stopper may be formed on a surface of the upper support portion and the lower support portion, the rotation hole may be located on the facing surface, and the resistance plate may be rotated about the projecting pin, It is no longer rotated by the stopper.

The resistance plate is formed in a hollow shape on the opposite side of the fixing hole and is formed with an inserting portion having one side opened. The auxiliary resistor is inserted into the resistance plate through the inserting portion, Plate.

In addition, the resistance plate may include a first rail provided along the upper and lower sides of the insertion portion, and the auxiliary resistance plate may be provided on the upper and lower sides, And a second rail provided on the upper and lower sides and guided to the inside of the insert along the first rail in engagement with the first rail.

The resistance plate is formed on the other side of the opposite side where the inserting portion having one side opened is communicated with the inserting portion, and a drain port through which the fluid or gas flowing into the inserting portion is discharged is formed.

The resistive plate may have one end coupled to the inner surface of the insertion portion of the resistance plate and the other end coupled to one side of the auxiliary resistance plate facing the inner surface of the insertion portion, Wherein the second elastic member is contracted by a centrifugal force generated as the rotating body rotates and the auxiliary resistance plate is inserted into the insertion portion to reduce the area, .

The stopper is formed at the upper support portion and the lower support portion so that the other side of the resistance plate is inclined at an arbitrary angle in the rotation direction than one side so that the resistance plate is stably supported on the stopper, , And is prevented from being separated from the stopper due to centrifugal force.

As described above, according to the present invention, since the rotation support is rotated by the resistance of the resistance plate against the gas or the fluid, resistance is generated as the rotation axis is rotated, A power generation device can be provided.

According to the present invention, the second elastic member is contracted by the centrifugal force generated as the rotating body rotates, and the auxiliary resistance plate is inserted into the insertion portion to reduce the area, Can be provided.

1 is a perspective view illustrating a hydroelectric power generating apparatus according to a preferred embodiment of the present invention.
2 is an exploded perspective view of a hydroelectric power generating apparatus according to a preferred embodiment of the present invention.
3 is a perspective view illustrating a resistance plate coupled to a support portion of a hydroelectric power generating apparatus according to a preferred embodiment of the present invention.
4 is a cross-sectional view illustrating a support portion of a hydroelectric power generating apparatus according to a preferred embodiment of the present invention.
5 is a plan view showing a state where the hydroelectric power generator is rotated by a flow velocity according to a preferred embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described with reference to the drawings for explaining a hydroelectric power generating apparatus according to embodiments of the present invention.

FIG. 1 is a perspective view of a hydroelectric power generating apparatus according to a preferred embodiment of the present invention, FIG. 2 is an exploded perspective view of a hydroelectric power generating apparatus according to a preferred embodiment of the present invention, FIG. 4 is a cross-sectional view illustrating a supporting portion of a hydroelectric power generating apparatus according to a preferred embodiment of the present invention. FIG. 5 is a perspective view of a hydrodynamic power generating apparatus according to a preferred embodiment of the present invention. And is rotated by the flow velocity.

The hydrodynamic power generator of the present invention is a device that generates electricity by rotating along the direction of gas or fluid flow.

Referring to Figs. 1 to 5, the hydroelectric generating apparatus of the present invention includes a rotating body 20, a rotating support 30, and a resistance plate 40.

First, the generator housing 10 is erected on the ground, and the rotary shaft 11 is formed.

The rotating body (20) is coupled to the rotating shaft (11) and rotated integrally with the rotating shaft (11).

At this time, the combination of the rotating shaft 11 and the rotating body 20 can be engaged in a gear-like manner so as to be integrally rotated.

The rotary support 30 is provided on the rotating body 20 in a direction perpendicular to the housing 10.

At this time, it is preferable that a plurality of rotation support bars 30 are provided, and a plurality of rotation support bars 30 are provided in the longitudinal direction of the rotation support bar 30. In addition, the rotation supports 30 may be stacked in the vertical direction and may be provided in multiple numbers.

The rotary support (30) includes a support (31).

The support portion 31 is rotatably coupled to the end of the resistance plate 40.

At this time, it is preferable that at least one of the supports is formed.

The support portion 31 includes an upper support portion 32 and a lower support portion 33.

The upper support portion 32 and the lower support portion 33 are formed on the upper and lower sides so as to face each other.

Rotating holes 35 are formed on the upper surface of the lower supporting portion 33 and the upper supporting surface 32 of the upper supporting portion 32 and the upper supporting portion 32 and the lower supporting portion 33, respectively.

A stopper 34 is protruded from a surface of the upper support portion 32 facing the lower support portion 33.

5, the stopper 34 is formed on the upper support portion 32 and the lower support portion 33, and the other side of the resistance plate 40 to be described later is further inserted Respectively.

At this time, it is preferable that an arbitrary angle (by?) Is 1 to 10 degrees, but it is not limited thereto.

Accordingly, when the resistance plate 40 is supported by the stopper 34, the resistance plate 40 is obliquely supported in the direction of the centrifugal force generated upon rotation of the rotating body 20 and is not rotated any more, .

That is, the other end of the resistance plate 40 is formed at an angle to the inside of the upper support portion 32 and the lower support portion 33 such that the other side of the resistance plate 40 is further inserted into the resistance plate 40 Is stably supported on the stopper 34 to prevent the resistance plate 40 from being separated from the stopper 34 due to the flow velocity direction or the centrifugal force.

At least one resistance plate 40 is provided on the rotation support 30, and may be provided in the longitudinal direction or the vertical direction of the rotation support 30.

Further, the resistance plate 40 is coupled to the rotary support 30 so that one side of the resistance plate 40 is rotatable with a hinge.

In addition, the resistance plate 40 includes the projecting pin 42 and the first elastic member 43.

The resistance plate 40 is formed with a fixing hole 41 through which the projecting pin 42 is inserted in the upper and lower sides.

One side of the projecting pin 42 is inserted into the fixing hole 41 of the resistance plate 40 formed on the upper side and the lower side and the other side is inserted into the turn hole 35 of the rotation support 30.

That is, the resistance plate 40 is rotated about the projecting pin 42 and is not supported by the stopper 34 and is further rotated in one direction of the support portion 31.

In other words, the resistance plate 40 is rotated about the projecting pin 42, one side is supported by the rotation support 30, and the other side is rotated by 180 degrees by the stopper 34. [

The first elastic member 43 is inserted into the fixing hole 41 to elastically support the projecting pin 42.

The opposite side surface of the rotation support 30 on which the rotation hole 35 is formed is formed with a hole having a size smaller than the diameter of the rotation hole 35. The protruding pin 42 supported by the first elastic member 43 can be pulled out of the rotation hole 35 by inserting the pin into the hole so that the resistance plate 40 can freely be attached to and detached from the rotary support 30 .

That is, the rotary support 30 is rotated by the resistance of the resistance plate 40 against the gas or the fluid, and electricity is generated by the power generator as the rotary shaft 11 is rotated.

The resistance plate 40 is formed in a hollow shape on the opposite side to which the fixing hole 41 is formed, and the insertion portion 46 having one side opened is formed.

The resistance plate (40) includes an auxiliary resistance plate (44).

The auxiliary resistance plate 44 is inserted into the resistance plate 40 through the inserting portion 46 so that the length of the auxiliary resistance plate 44 protruding from one side of the resistance plate 40 is variable.

In addition, the auxiliary resistance plate 44 includes a wheel 45. [

The wheels 45 are provided on the upper and lower sides so as to be movable along the inner surface of the inserting portion 46.

The resistance plate 40 also includes a first rail (not shown).

The first rail is provided on the upper side surface and the lower side surface of the inserting portion 46.

In addition, the auxiliary resistance plate 44 includes a second rail (not shown).

A second rail is provided on the upper and lower sides and is engaged with the first rail and guided into the insert 46 along the first rail.

That is, when the hydrostatic force is generated more than necessary, the auxiliary resistance plate 44 rotates excessively. In this case, the resistance area of the resistance plate 40 is reduced using the generated centrifugal force to reduce the rotation speed.

The resistance plate 40 is connected to the inserting portion 46 at the other side opposite to the side where the inserting portion 46 with one side opened is formed to penetrate the inserting portion 46 to discharge the fluid or gas flowing into the inserting portion 46 A drain hole 48 is formed.

The resistance plate (40) further includes a second elastic member (47).

The second elastic member 47 is coupled to one side of the inserting portion 46 of the resistance plate 40 and the other end is coupled to one side of the auxiliary resistance plate 44 facing the inner side face of the inserting portion 46 So that the auxiliary resistance plate 44 is elastically supported so as to protrude to one side of the resistance plate 40.

That is, the centrifugal force generated as the rotating body 20 is rotated shrinks the second elastic member 47 and the auxiliary resistance plate 44 is inserted into the insertion portion 46 to reduce the area, prevent.

Accordingly, the auxiliary resistance plate 44 is inserted into the resistance plate 40 while pushing the second elastic member 47 by the centrifugal force, thereby reducing the resistance area against the hydraulic force to reduce the rotation speed. On the other hand, The auxiliary resistance plate 44 is released to the outside of the resistance plate 40 by the two elastic members 47 to widen the resistance area so that the resistance plate 40 is rotated under a strong force.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalents thereof are included in the scope of the present invention Should be interpreted.

10: housing 11:
20: rotating body 30: rotating support
31: support part 32: upper support part
33: lower support portion 34: stopper
35: Turn 40: Resistance plate
41: fixing hole 42: projecting pin
43: first elastic member 44: auxiliary resistance plate
45: wheel 46:
47: second elastic member 48: drain hole

Claims (10)

1. A hydrostatic generator for generating electricity by rotating along a direction of gas or fluid flow,
A power generator housing which is erected on the ground and has a rotating shaft;
A rotating body coupled to the rotating shaft and rotated integrally with the rotating shaft;
A plurality of rotation supports provided on the rotating body in a direction perpendicular to the housing; And
And a resistance plate having at least one or more rotation support rods, the resistance plate being rotatably coupled to the rotation support rods at one side thereof by a hinge,
The rotating support is rotated by the resistance of the resistance plate against the base or the fluid, electricity is generated by the power generator as the rotating shaft is rotated,
The rotation support base includes a support portion at an end of which the resistance plate is rotatably coupled and supported,
Wherein the support portion includes an upper support portion and a lower support portion which are formed so as to be opposed to each other in the upper and lower directions and in which rotation holes are formed on the lower side of the upper support portion and the upper side of the lower support portion,
The resistance plate has fixing holes formed on the upper and lower sides thereof,
Wherein the resistance plate includes a projecting pin into which one side is inserted into the fixing hole and the other side is inserted into the rotating hole and is rotated about the projecting pin.
delete delete The method according to claim 1,
Wherein the resistance plate further comprises a first elastic member inserted into the fixing hole and elastically supporting the protruding pin, and is detachably attachable to the supporting portion.
The method according to claim 1,
Wherein a stopper is protruded on a surface of the upper support portion and the lower support portion, the rotation hole is formed on the facing surface,
Wherein the resistance plate is not further rotated by the stopper when the resistance plate is rotated about the projecting pin.
The electronic device according to claim 1,
An inserting portion formed on the opposite side of the fixed hole and formed in a hollow shape and having one side opened,
And an auxiliary resistance plate inserted into the resistance plate through the inserting portion, the auxiliary resistance plate being protruded to one side and varying in length.
The method according to claim 6,
Wherein the resistance plate includes a first rail provided along the upper and lower sides of the insertion portion,
Wherein the auxiliary resistance plate comprises a second rail provided on the upper and lower sides and guided to the inside of the insert along the first rail in engagement with the first rail.
The method according to claim 6,
Wherein the resistance plate is formed at the other side of the opposite side where the inserting portion having one side opened is communicated with the drain portion, through which the fluid or gas flowing into the inserting portion is discharged.
7. The apparatus as claimed in claim 6,
And the other end is coupled to one side of the auxiliary resistance plate facing the inner side surface of the insertion portion so that the auxiliary resistance plate is elastically supported to protrude to one side of the resistance plate, Further comprising an elastic member,
Wherein the second elastic member is contracted by a centrifugal force generated as the rotating body rotates, and the auxiliary resistance plate is inserted into the insertion portion to reduce the area, thereby preventing overheating of the power generation device.
6. The method of claim 5,
The stopper is formed at the upper support portion and the lower support portion so that the other side of the resistance plate is inclined at an arbitrary angle in a direction of rotation than one side so that the resistance plate is stably supported on the stopper, And prevents separation from the stopper due to centrifugal force.

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