KR20080023461A - Hinge type water turbine with variable wings and water turbing generator using the same - Google Patents

Abstract

A hinge type water turbine with variable blades and a water turbine generator using the same are provided to maximize an area in case of being under water pressure or minimize resistance of water in case of not being under water pressure, remove a limitation on an installation place, and reduce maintenance cost. A central shaft(12) is fixed at a bottom of water in a vertical direction. A plurality of support shafts(13) are rotatably arranged in a radial shape of the central shaft. A pair of variable blades(10) are assembled with outer peripheries of the support shafts through center parts. In case the variable blades are under water pressure, the variable blades are unfolded at a predetermined angle to maximize an area. In case the variable blades are not under water pressure, the variable blades are folded at a predetermined angle to minimize resistance of water.

Description

Hinge type water turbine with variable wings and water turbing generator using the same}

1 is a perspective view showing a hinged variable wing aberration according to the present invention.

2 is a schematic view showing a first embodiment of a water wheel generator according to the present invention;

Figure 3 is a schematic diagram showing a second embodiment of the aberration generator according to the present invention.

Figure 4 is a schematic diagram showing a third embodiment of the aberration generator according to the present invention.

5 is a schematic diagram showing a fourth embodiment of a water wheel generator according to the present invention;

Explanation of symbols on the main parts of the drawings

10: hinged variable wing aberration 12: central axis

13 support shaft 14 square frame

15: variable wing 16: support frame

17: bearing 18: drip member

19: disc member 20: housing

22: opening and closing means 24: floating member

The present invention relates to a hinged variable wing aberration and an aberration generator using the same, in particular, when a pair of wings are separated and installed in a radial state to be installed in a radial state when deployed under the maximum pressure and return to receive no water pressure When folded to minimize the resistance of the water, can be installed regardless of the place, it relates to a hinged variable wing aberration and aberration generator using the same to reduce the maintenance cost.

Electricity is the most basic energy widely used in everyday life and in all industries, and is an indispensable element in human life.

In particular, with the development of high-tech industries, various products that use electricity as energy appear one after another, and the use of electricity is increasing rapidly. Therefore, stable power supply and demand is important in modern times.

Hydroelectric power generation, thermal power generation, and nuclear power generation can be roughly classified into hydroelectric power generation methods. Hydroelectric power is most commonly used in many aspects.

Hydropower uses a geographic condition to build a huge dam across the river to store a large amount of water, and then operates the generator by turning the turbine with the force of the water drop released through the water gate provided at the upper part of the dam. To produce.

Therefore, hydro power generation is not affected by seasonal factors or droughts, and it can emit a certain amount of water at all times, so that it can produce large-scale electricity stably, and unlike environmental power generation or nuclear power generation, there is little concern about environmental pollution. In addition, in particular, the water stored in the dam constructed for power generation has the advantage that can be utilized as agricultural water or industrial water.

However, such hydroelectric power generation is not only long, and requires huge costs and manpower, but also severe resistance to expansion due to severe destruction of natural ecosystems caused by dam construction and compensation for residents in flooded areas. have.

On the other hand, in view of the problems of hydroelectric power generation, so-called tidal current generators for driving generators by rotating aberrations by tidal forces such as river water have been proposed, but such tidal current generators generate aberrations rotating by tidal force of water. Since the structure must be elevated in response to the change in water level, it is not only complicated in structure but also has a problem that it is difficult to transfer the rotating power of the aberration to the generator according to the water level change.

That is, the level of aberration changes according to the change of the water level, so in order to transfer the rotational power of the aberration to the generator, the generator itself is moved up or down in response to the level change of the aberration, or the power transmission means is variable by the change width according to the level change of the aberration. Since the configuration of the device is so complicated that it is difficult to ensure the accuracy of the power transmission is difficult.

The present invention has been proposed to solve the above-mentioned problems, the object of which is to expand the area when receiving water pressure by radially installed by detaching a pair of wings in a collapsible state to maximize the water pressure The hinged variable wing aberration, which can be folded to minimize water resistance, can be installed anywhere, can prevent environmental pollution, and can reduce installation and maintenance costs. In providing an aberration generator used.

Hinge variable wing aberration according to an embodiment of the present invention for achieving the above object, the central axis of a predetermined length fixed in the longitudinal direction on the bottom of the water; A plurality of support shafts radially disposed on the central axis and rotatably provided; And a variable wing composed of a pair of wings configured to couple the center portion to the outer circumference of the support shaft so that the area is maximized when receiving water pressure, and folded at a predetermined angle when water pressure is not returned when returning to minimize the water resistance. Characterized in that.

In addition, it is preferable that a circular support frame is provided around the plurality of support shaft outer ends to support the outer ends of the respective support shafts.

In addition, it is effective that the support frame is provided with a bearing.

In addition, when the variable blade is deployed by hydraulic pressure, it is preferable that the support shaft is provided with a square frame for supporting the outer surface of the variable blade so that the angle of deployment of the variable blade is 180 ° or less.

In addition, it is effective that the outer portion of the variable blade and the portion corresponding to the outer portion in the rectangular frame is connected to the wrinkle member.

In addition, it is preferable that a drip member is provided at a portion adjacent to an outer portion of the variable blade.

In addition, the outer circumference of the central axis is provided with a bearing member is effective to be integrally coupled with the support shaft.

In addition, it is preferable that the speed reducer is provided on the central axis.

In addition, it is effective that the predetermined angle at which the variable blade is deployed and folded is in the range of 10 ° to 170 °.

Hinge variable wing aberration according to another embodiment of the present invention is a central axis of a predetermined length fixed in the longitudinal direction on the bottom of the water; A disc member rotatably coupled to the central axis and having a plurality of through holes radially; Support shafts respectively coupled to the through-holes of the disc member; And a variable wing composed of a pair of wings configured to couple the center portion to the outer circumference of the support shaft so that the area is maximized when receiving water pressure, and folded at a predetermined angle when water pressure is not returned when returning to minimize the water resistance. Characterized in that.

On the other hand, the aberration generator according to another aspect of the present invention, the hinged variable wing aberration; And a housing having opening and closing means for accommodating the hinged variable blade aberration and blocking and allowing water to flow therein.

In addition, the opening and closing means is preferably provided in the front or rear of the housing.

In addition, the opening and closing means is effectively provided in the front and rear of the housing.

In addition, the housing may include an anchor for fixing in water, or may include a fixed shaft for fixing to the bottom of the water.

In addition, it is effective that the floating member is further provided in the housing.

At this time, the floating member is made of a hollow type.

Hereinafter, the hinged variable wing aberration and the aberration generator using the same according to the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5 are views for showing a hinged variable wing aberration and aberration generator using the same according to the present invention, Figure 1 is a perspective view showing a hinged variable wing aberration according to the present invention, Figure 2 according to the present invention 3 is a schematic diagram showing a first embodiment of the aberration generator, Figure 3 is a schematic diagram showing a second embodiment of the aberration generator according to the present invention, Figure 4 is a schematic diagram showing a third embodiment of the aberration generator according to the present invention, 5 is a schematic view showing a fourth embodiment of a water wheel generator according to the present invention.

The hinged variable blade aberration 10 according to the present invention includes a central axis 12, as shown in Figs. A support shaft 13; And a variable wing 15.

The central shaft 12 is fixed to the bottom in the longitudinal direction, has a predetermined length, the outer periphery is provided with a bearing member (not shown), the support shaft 13 to be described later is integrally coupled.

In addition, the central shaft 12 is provided with a reducer (not shown) to reduce the rotational speed of the support shaft 13 to be described later with respect to the central axis 12, such a reducer is a publicly known technology Detailed description herein is omitted.

The support shaft 13 is disposed radially of the central axis 12 and provided with a plurality of pivots.

As shown in FIG. 3, a circular support frame 16 is provided around the outer ends of the plurality of support shafts 13 so as to support the outer ends of the respective support shafts 13. The bearing 17 is provided to be coupled to the outer end of the support shaft 13 to compensate for the support rigidity of the support shaft 13.

The variable blade 15 is coupled to the outer circumference of the support shaft 13 and the central portion is expanded at a predetermined angle to maximize the area when receiving water pressure, and folded at a predetermined angle when water pressure is not returned to return the water resistance. It consists of a pair of wings to minimize. The number of such variable blades 15 can be changed as much as the user's design requirements.

When the variable blade 15 is deployed by hydraulic pressure, a rectangular frame 14 supporting the outer surface of the variable blade 15 is shown in FIG. 1 such that the angle of deployment of the variable blade 15 is 180 ° or less. It is provided in the support shaft 13.

At this time, it is preferable that the predetermined angle at which the variable blade 15 is deployed and folded is in a range of 10 ° to 170 °.

In addition, the outer portion of the variable blade 15 and the portion corresponding to the outer portion in the rectangular frame 14 may be connected to the wrinkle member (not shown) to maximize the water pressure.

As shown in FIG. 1 as another method for maximizing the water pressure, the drip member 18 may be provided at a portion adjacent to the outer portion of the variable blade 15.

Another embodiment of the hinged variable wing aberration according to the present invention, as shown in Figure 4, the central axis 12 of a predetermined length fixed longitudinally to the bottom of the water; A disc member 19 rotatably coupled to the central axis 12 and having a plurality of through holes radially; Support shafts 13 coupled to the through-holes of the disc member 19; And a pair of wings to expand at a predetermined angle to maximize the area when the central portion is coupled to the outer circumference of the support shaft 13 to receive a water pressure, and to be folded at a predetermined angle when the water pressure is not returned upon return. Characterized in that it comprises a variable wing 15 made.

At this time, the disc member 19 is to supplement the rigidity of the support shaft 13, mainly using an iron plate.

A through hole is formed in the center of the disc member 19 so that the central axis 12 is fitted, and a bearing (not shown) is fitted between the through hole and the central axis 12.

On the other hand, the aberration generator according to the present invention, as shown in Figures 2 to 5, the hinged variable-wing aberration 10 as described above; And a housing 20.

The housing 20 is provided with opening and closing means 22 to accommodate the hinged variable blade aberration 10 and to block and allow water to be introduced into the housing 20.

The opening and closing means 22 may be provided in the front or rear of the housing 20, as shown in Figures 2 to 4 when the aberration generator is installed in a river or river, or when the aberration generator is installed in the sea As shown in FIG. 5, the housing 20 may be provided at the front and the rear of the housing 20.

Such opening and closing means 22 is preferably formed in the form of a sluice gate can be opened and closed through a remote control. Since such a technique can be easily implemented by those skilled in the art, a detailed description thereof will be omitted.

In addition, the housing 20 can be fixed in the water using an anchor, it can be fixed to the bottom of the water using a fixed shaft.

That is, an anchor or a fixed shaft may be installed at four corner portions of the housing 20.

Meanwhile, in order to allow the housing 20 to float in water, as shown in FIGS. 2 to 5, a floating member 24 may be provided at both sides of the housing 20, and the floating member 24 may be provided. It is preferably made of a hollow material and made of a light and excellent material such as fiber-reinforced plastic.

In addition, the floating member 24 may be provided in plural around the housing 20 in addition to both sides of the housing 20.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the technical field of the present invention without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

According to the hinged variable-wing aberration and the aberration generator using the same according to the present invention as described above, when a pair of wings are separated and installed radially in a collapsible state, it is developed when the hydraulic pressure is developed to maximize the area and increase the hydraulic pressure. When the return is not received, it can be folded to minimize the resistance of the water, can be installed regardless of the location, can prevent the environmental pollution, and can reduce the installation cost and maintenance cost.

Claims (17)

A central axis of a predetermined length fixed longitudinally to the bottom of the water; A plurality of support shafts radially disposed on the central axis and rotatably provided; And When the central portion is coupled to the outer circumference of the support shaft when the water pressure is applied, the area is expanded at a predetermined angle so as to maximize the maximum, and when the water pressure is not returned when the return is folded at a predetermined angle to include a variable wing consisting of a pair of wings to minimize water resistance Hinged variable wing aberration. The method of claim 1, Around the outer ends of the plurality of support shafts. Circular support frames are provided to support the outer ends of the respective support shafts Hinged variable wing aberration. The method of claim 2, The support frame With bearing Hinged variable wing aberration. The method of claim 1, When the variable blade is deployed by hydraulic pressure, the support shaft is provided with a square frame for supporting the outer surface of the variable blade such that the angle of deployment of the variable blade is 180 ° or less. Hinged variable wing aberration. The method of claim 4, wherein The outer portion of the variable blade and the portion corresponding to the outer portion in the rectangular frame is connected to the wrinkle member Hinged variable wing aberration. The method of claim 4, wherein A drip member is provided at a portion adjacent to the outer portion of the variable wing. Hinged Variable Wing Aberration The method of claim 1, On the outer periphery of the central axis A bearing member is provided and integrally coupled with the support shaft Hinged variable wing aberration. The method of claim 1, In the central axis With reducer Hinged variable wing aberration. The method of claim 1, The angle at which the variable blade is deployed and folded is In the range of 10 ° to 170 ° Hinged variable wing aberration. A central axis of a predetermined length fixed longitudinally to the bottom of the water; A disc member rotatably coupled to the central axis and having a plurality of through holes radially; Support shafts respectively coupled to the through-holes of the disc member; And When the central portion is coupled to the outer circumference of the support shaft when the water pressure is applied, the area is expanded at a predetermined angle so as to maximize the maximum, and when the water pressure is not returned when the return is folded at a predetermined angle to include a variable wing consisting of a pair of wings to minimize water resistance Hinged variable wing aberration. Hinged variable wing aberration according to any one of claims 1 to 10; And And a housing having opening and closing means for accommodating the hinged variable blade aberration and blocking and allowing water to be introduced therein. Water wheel generator. The method of claim 11, The opening and closing means is Is provided in front or rear of the housing Water wheel generator. The method of claim 11, The opening and closing means is It is provided in the front and rear of the housing Water wheel generator. The method according to any one of claims 11 to 13, The housing is With anchors for fixing in water Water wheel generator. The method according to any one of claims 11 to 13, The housing is Including a fixed shaft for anchoring to the underwater floor Water wheel generator. The method according to any one of claims 11 to 13, The housing Floating member is further provided Water wheel generator. The method of claim 16, The floating member is Hollow Water wheel generator.

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