KR101897436B1 - Hydraulic power generation system with hydraulic cylinders - Google Patents

Abstract

The present invention relates to a hydraulic power generation system with a cylinder to store hydraulic pressure, which converts water pressure in accordance with a water level variance caused by a difference between high and low tides into rotational force through a watermill, converts the generated rotational force into hydraulic pressure, and uses the hydraulic pressure to perform power generation. According to the present invention, the hydraulic pressure generation system (1) comprises: a main body (2); a hydraulic pressure generation means (3) installed in the main body (2), and including the watermill (31) rotated forward and backward in accordance with a flow of a water level and pressure applied from the outside to form forward and backward rotational energies, and a hydraulic pump (32) to form hydraulic pressure while converting the forward and backward rotational energies of the watermill (31) into linear motion; a hydraulic pressure generator (4) receiving and converting the hydraulic pressure generated through the hydraulic pressure generation means into the rotational energy, and converting the converted rotational energy into the electric energy to perform power generation; a high pressure oil storage cylinder device (5) disposed on a hydraulic moving path to supply the hydraulic pressure generated from the hydraulic pressure generation means (1) to the hydraulic pressure generator (4), and receiving the hydraulic pressure from the hydraulic pressure generation means (3) to convert the received hydraulic pressure into a high constant pressure and supply the high constant pressure to the hydraulic pressure generator (4); and a hydraulic pressure storage tank (110).

Description

Technical Field [0001] The present invention relates to a hydraulic power generation system having hydraulic cylinders,

The present invention relates to a hydraulic pressure control apparatus and method for controlling a hydraulic pressure in a cylinder that converts a height difference due to fluctuation of a water level due to a fresh water level only into a rotational force through buoyancy and magnetic gravity and converts the generated rotational force into hydraulic pressure, To a hydraulic power generation system.

Generally, hydro-power generation systems that are developed by applying hydraulic pressure are technologies for generating electricity by rotating a turbine by injecting high-pressure water strongly to an a-turbine, thereby generating electricity only in a special place such as a multipurpose dam.

On the other hand, disasters caused by the unusual global climate and the price hike of fossil fuels, which are frequently encountered in recent years, are pushing the whole human being to create clean energy and alternative energy through the logic of suppressing excessive carbon emissions.

As a result, we are developing clean alternative energy using various methods such as solar, wind, hydro, and bio energy.

One of these alternative energies is tidal energy. The larger the tidal difference, the more tidal energy can be obtained.

Especially, the help of Korea in the west sea and the southern sea is a kind of infinite energy resource envied by the world.

The use of tidal energy is divided into tidal power generation and tidal power generation. In case of tidal power generation, it is necessary to build a huge seawall to build a saltwater lake, which seeks to seize the living environment of coastal people including the fishermen, .

Accordingly, the construction of tidal flats for tidal power generation is causing opposition to various people such as fishermen, coastal inhabitants and nature conservation groups.

In addition, the tidal power generation is performed by using the potential energy according to the drop of the algae flowing through the gate after constructing the seawater. In the case of tide, the tide pool is accumulated in the tide pond, Can be performed.

Moreover, it is necessary to wait for the fall to occur at the beginning of the ebb tide. In the latter period, since the water pressure is lowered due to the low drop, the power generation can not be performed, and the operation can be performed only for 6 to 8 hours per day.

Therefore, it can be said that tidal power generation is extremely inefficient compared to investment cost and scale.

On the other hand, tidal power generation is a method of generating electricity by using kinetic energy by algae, and it is divided into an immersion system installed in the sea and a floating system using a power generation line floating on the sea.

It is difficult to construct a tidal-type algae power generation system because it is necessary to construct a power plant on the sea floor underwater and use a propeller that is rotated by algae, There is a problem in that the installation position is extremely limited because the flow of the strong flow velocity suitable for the propeller method is limited.

On the other hand, floating-type algae power generation uses aberrations, not propellers, because it can utilize a high flow rate near the sea level, thereby improving power generation efficiency and installing a power generation facility on a ship. have.

The present invention is a hydraulic power generation system that converts a height difference due to a fluctuation of a water level due to a fresh water level only into a rotational force through buoyancy and magnetic gravity, converts the rotational force generated by the rotational force into hydraulic pressure,

Korean Patent Laid-Open Publication No. 10-2012-0061264 (name: a vertical axis type turbine having multiple subsidiary blades), as known in the art, includes a vertical rotation shaft installed perpendicularly to the wind direction, A plurality of support arms arranged at regular intervals in a radial direction to transmit rotation torque to the vertical rotation shaft, and a plurality of supporting arms mounted perpendicularly to the respective ends of the support arm, Wherein the blade groups are arranged in an equidistant radial pattern, the blade groups each having a plurality of blade groups each having a plurality of blades There is described a turbine equipped with at least one turbine.

In the Korean Patent Registration No. 10-1431188 (titled "Vertical Variable Turbine of a Blade"), as described in the publication, a rotary plate is provided to be rotated on both sides of a fixed shaft provided across a waterway, The sprockets fixed to the blade are installed on the outer side of the rotary plate while the sprockets are fixed to the fixed shaft, and the sprockets are fixed to the sprocket, And a sprocket fixed to the fixed spindle is installed between the sprocket and the sprocket so that the sprocket is fixed to the sprocket and fixed to the sprocket, The rotating cap is rotated about the fixed axis, And a turbine configured to draw power from the front cap and drive the generator.

In addition, in Korean Patent Registration No. 10-1567263 (titled "Hydrostatic power generation device"), as known in the art, a support shaft is radially protruded along one side edge of a tubular body, A pair of reinforcing plates integrally formed so as to be symmetrical to each other and a support plate integrally formed between the pair of reinforcing plates and projecting from the pair of reinforcing plates and positioned in an upper row and a lower row and radially arranged around the reinforcing plate; And a space portion formed between the rotating shaft and the blade, and a pair of rotatable sleeves made of a synthetic resin material thrust bearing or a non-lube composite material disposed on the frame are installed vertically in a symmetrical manner to form a fluid passing through the housing To rotate by the flow of the fluid; The blade has a straight section that is outwardly directed from the center of the reinforcing plate when viewed in plan view; Wherein an angle between the straight line section of the blade located on the X axis at a point in contact with the flow path of the housing and the X axis is 20 degrees when the blade is viewed in a plan view and includes a curved section bent inward from an outer end of the straight section, Aberrations are described.

On the other hand, as disclosed in Korean Patent Laid-Open Publication No. 10-2014-0116170 (name: method of manufacturing a rotating body by fluid and its rotating body), the cylinder is divided into equally divided parts, And a connecting mechanism capable of freely rotating is mounted on the support forming portion, and one side of each blade is rotated by the free rotation The rotating body is mounted by a connecting mechanism that can move and is used as a rotating blades. The rotating blades are controlled to be able to be opened and closed. When the rotating blades are closed, the rotating body is returned to a cylindrical shape.

Korean Patent Publication No. 10-2012-0061264 Korean Patent Registration No. 10-1431188 Korean Patent Registration No. 10-1567263 Korean Patent Publication No. 10-2014-0116170

However, in the conventional power generation systems and devices using the above-mentioned conventional hydraulic power as the source energy, the intensity of the waves and the flowing water intensity are not constant but vary from time to time. The difference in height between the high and low water tides is also different for each day. So that the power generation efficiency is deteriorated.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems of the related art. The object of the present invention is to convert a height difference due to a water level fluctuation by a tide interval into a rotational force through buoyancy and magnetic gravity, The hydraulic pressure generated at the time of power generation is formed into a constant pressure having a high pressure to be applied to a hydraulic power generation system in which a cylinder for storing hydraulic pressure for maximizing power generation efficiency is applied, System.

According to another aspect of the present invention, there is provided a hydraulic power generation system including a cylinder for storing hydraulic pressure, the hydraulic power generation system including: a main body; A hydraulic pump provided in the main body and adapted to rotate forward and backward in accordance with a flow of water level and pressure applied from the outside to form normal and rotational energy and a hydraulic pump for converting the normal and rotational energy of the aberration into linear motion, A hydraulic pressure generating means; And a hydraulic generator for converting the rotational energy into rotational energy and converting the rotational energy into electric energy to generate electric power, the hydraulic power generator comprising: A high pressure oil storage cylinder device adapted to be supplied with the hydraulic pressure from the hydraulic pressure generation means arranged in the hydraulic pressure transfer path to which the hydraulic pressure generated by the hydraulic pressure generation means is supplied to the hydraulic pressure generator, And further comprising:

In the hydraulic power generation system to which the cylinder for storing the hydraulic pressure according to the present invention is applied, the height difference due to the variation of the water level only by the tide interval is converted into the rotational energy through the buoyant force and the gravity force through the aberration, The hydraulic pressure is converted into the hydraulic pressure, and then the hydraulic pressure is supplied to the hydraulic generator through the high-pressure oil storage cylinder device at a high pressure having a high pressure, thereby maximizing the power generation efficiency of the hydraulic generator.

In addition, since the water energy existing around us, such as the difference in the tidal range, the wave power and the water flow, is converted into the hydraulic energy, it can be installed in the general public without being disturbed by the place and is suitable for popularization because the pollution does not occur, Therefore, it is possible to produce a large amount of electricity from a small-sized power generation apparatus.

In addition, since the continuous operation is possible day and night, the efficiency is much higher than that of conventional solar power generation.

In addition, since the hydraulic pressure generated by irregular pressure through the high-pressure oil storage cylinder device is changed to a constant constant pressure, it is supplied in a constant pressure with a hydraulic generator, so that it is possible to produce high-quality electricity.

In addition, since a plurality of high-pressure oil storage cylinder devices can be arranged in parallel in order to secure pressure oil for continuous rotation of the hydraulic power generator, cost increase due to enlargement, cost increase due to transportation and installation problems, It has an effect that is easy to do.

1 is a schematic view showing a hydraulic power generation system to which a cylinder for storing hydraulic pressure according to an embodiment of the present invention is applied;
Fig. 2 and Fig. 3 are schematic views showing a hydraulic pressure generating means constituting a hydraulic power generation system to which a cylinder for storing hydraulic pressure according to the present embodiment is applied; Fig.
Fig. 4 and Fig. 5 are schematic views showing a high-hydraulic storage cylinder device constituting a hydraulic power generation system to which a cylinder for storing hydraulic pressure according to the present embodiment is applied. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a hydraulic power generation system including a cylinder for storing hydraulic pressure according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more fully describe the present invention to those skilled in the art. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

1 to 5 are views showing a hydraulic power generation system 1 to which a cylinder for storing hydraulic pressure according to an embodiment of the present invention is applied. In the hydraulic power generation system 1 1) comprises a main body 2; An aberration 31 provided in the main body 2 and adapted to rotate forward and backward in accordance with a flow of water level and pressure applied from the outside to generate normal and rotational energy, A hydraulic pressure generating means (3) having a hydraulic pump (32) adapted to form a hydraulic pressure; And a hydraulic generator (4) which is supplied with the hydraulic pressure generated by the hydraulic pressure generating means (3) and converts the converted rotary energy into electric energy and generates electric power.

That is, the height difference due to the variation of the water level only by the tide difference is converted into rotational energy through buoyancy and gravity through the aberration 31, and the rotational force is converted into hydraulic pressure through the hydraulic pump 32, (4) to generate electrical energy.

In the above description, it is preferable that the hydraulic power generator 4 is composed of a structure to which a technique selected from among commonly known technologies is applied; It is most preferable to apply it according to the user's selection.

In the hydraulic power generation system 1 in which the cylinder for storing the hydraulic pressure according to the present embodiment is applied, the aberration 31 is set such that the cylindrical rotating body is raised above the water surface by buoyancy and smoothly rotated by waves or water It is preferable that two wings and two circular end plates are attached to both ends of the cylinder so as to have a quadrilateral shape.

That is, it has a structure in which the water introduced into the wing side is not separated, and a robust structure capable of rotating without being broken even when the rough waves are worn.

The aberration 31 is coupled to the main body 2 by a shaft and a bearing so as to be rotatable about the end of the rotating link 33 which is rotatably pivotally connected to the main body 2 and freely moves according to a change in the position of the water pressure So as to rotate.

The hydraulic pump 32 includes a pump cylinder 321 fixed on a part of the rotary link so as to be rotatable about an axis of the rotary link and a hydraulic cylinder 321 which linearly reciprocates inside the pump cylinder 321 to form hydraulic pressure, And a pump rod 322 connected to the connection link 34, which is connected to the rotation shaft of the first and second rotary shafts 31 and 31 so as to be rotatable in the same direction, with a shaft and bearing so that the rotary force can be linearly moved by the pump.

That is, the pump rod is converted into a rectilinear motion in accordance with forward and reverse rotation of the connection link 34 rotating in the same direction with respect to normal and reverse rotation of the aberration 31, So that the hydraulic pressure is generated.

Accordingly, when the aberration 31 rotates or swings up and down by waves, the hydraulic pressure generated by the hydraulic pump 32 simultaneously with the generation of the hydraulic pressure is supplied to the high-pressure oil storage cylinder device 5 and the hydraulic pressure To the hydraulic generator (4).

It is preferable that the aberration 31 is fixed to the cylindrical connection reinforcing plate and the rigid plate in the longitudinal direction in the center of the cylindrical rotary body in order to withstand the external impact and smoothly rotate.

In addition, it is preferable that both ends of the cylindrical rotating body fixing shaft have a unit bearing and a swing arm attached thereto to form a sturdy structure for smooth rotation and transmission of accurate force.

It is preferable to couple the main body 2 with the fixed shaft and the bearing on both sides of the upper part of the aberration 31 in the above.

In addition, the rotary link 33 is coupled to both ends of the fixed shaft by a bearing, and when the aberration rotation force is transmitted to the hydraulic pump 32, the linear motion is performed while the linear motion reciprocates linearly.

In this case, the rod end of the hydraulic pump 32 may be connected to the wincher and the pin so that the length thereof can be adjusted, so that it is possible to periodically replace the parts.

In addition, it is preferable that one end of the hydraulic pump 32 is fixed by a cylinder fixing plate and a round pin, and is freely rotatable and disassembled and assembled.

It is preferable that a stopper is attached so that the aberration 31 does not fall over a certain angle so that it can be prevented from sagging in a vertical direction and floated in buoyancy.

The hydraulic pump 32 sucks the hydraulic pressure recovered from the hydraulic generator 4 as the buoyant force and the rotational force generated in the aberration 31 are linearly reciprocated through the rotary link 33, Is circulated to the hydraulic generator (4) side so that the hydraulic pressure is efficiently generated; It is preferable that a flexible hose that does not break the hydraulic path even if the hydraulic pump 32 moves is provided and a check valve for preventing back flow of the oil recovered from the hydraulic generator 4 is provided.

In the hydraulic power generation system 1 to which the cylinder for storing the hydraulic pressure according to the present embodiment is applied, the hydraulic pressure generated in the hydraulic pressure generation means 3 is supplied to the high-pressure oil storage cylinder device 5, The converted hydraulic pressure is generated by rotating the hydraulic generator (4), and hydraulic pressure flows into the hydraulic pressure storage tank (110) disposed in the hydraulic pressure path.

Accordingly, the hydraulic pressure is converted into a constant pressure fixed quantity through the high-pressure oil storage cylinder device 5 and supplied to the hydraulic generator 4, thereby maximizing the power generation efficiency of the hydraulic generator 4.

That is, the high-pressure oil storage cylinder device 5 produces high-quality electricity because the oil pressure generated by the hydraulic generator 4 is supplied while the unstably generated oil pressure is changed to a constant-pressure fixed quantity as described above.

The hydraulic power generation system 1 to which the cylinder for storing the hydraulic pressure according to the present embodiment is applied is provided with a plurality of the high-pressure oil storage cylinder devices (for example, 5 are preferably connected in parallel.

As a result, it is difficult to manufacture due to enlargement, transportation and installation problems, and high cost is not generated, thereby realizing economic benefits.

In the hydraulic power generation system 1 to which the cylinder for storing the hydraulic pressure according to the present embodiment is applied, the hydraulic pressure generated by the hydraulic pump 32 is supplied to the high-pressure oil storage cylinder device 5 through the hydraulic hose The unstably inflow hydraulic pressure is converted into a static pressure so that the number of revolutions of the hydraulic power generator 4 with respect to the hydraulic motor is kept constant.

The high-pressure oil storage cylinder device 5 includes a body 51 having a space portion formed with an inflow check valve 511 and a discharge check valve 512 to be introduced into the inside of the body 51, The positive pressure piston 52 descends to the lower side where gravity acts and a static pressure due to its own weight is formed.

It is preferable that a plurality of weight plates 53 capable of applying a constant load to the static pressure piston 52 are provided.

The weight plates 53 are coupled to the piston rod 54 which is assembled on the static pressure piston 52 and guided while being extended to the outside of the body 51. The pressure is adjusted by the number of the weight plates 53 It is desirable to determine.

By selecting the number of the high-hydraulic-pressure generating cylinder devices 53, the user can maximize the efficiency by preparing the power generation facilities with desired flow rates and pressures.

In the high-pressure oil storage cylinder device 5, only the high-pressure oil pressure is introduced from the oil pressure generating means 3, and the high-pressure piston 52 is pushed upward, The static pressure piston 52 descends downward to operate gravity, and a static pressure due to its own weight is formed.

When the hydraulic pressure supplied from the hydraulic pressure generating means 3 is higher than the hydraulic pressure supplied to the hydraulic generator 4, the positive pressure piston 52 is moved to the upper portion of the body 51, And flows the hydraulic pressure to the hydraulic pressure storage tank 110 through the relief valve.

In this case, it is preferable that the hydraulic pressure storage tank 110 is formed in a hermetically sealed structure in which the upper portion is clogged so that the size of the hydraulic pressure storage tank 110 is twice as large as the amount required for the entire equipment and the installation position is such that rainwater or foreign substances are prevented from entering the room.

In addition, it is preferable that a lid having a hinge and a handle attached thereto is provided on the upper part so as to facilitate internal cleaning and inspection.

In addition, it is preferable that a plurality of open / close valves are provided for the purpose of inflow and outflow of stored oil to open and close the movement of the fluid when supplying or collecting the fluid, respectively.

It is preferable that a transparent flow meter is provided so as to check the proper amount of fluid and accumulation of debris, and it is most preferable that a step and a handle are formed in a ladder shape so as to be accessible for internal inspection and cleaning.

The operation and effect of the hydraulic power generation system 1 to which the cylinder for storing the hydraulic pressure according to the present embodiment is applied will be described in detail as follows.

The hydraulic power generation system 1 to which the cylinder for storing the hydraulic pressure according to the present embodiment is applied is provided with various positions such as watercourses, waves, water level fluctuations naturally flowing in the sea, rivers, 2, and the aberration 3 is disposed on the water on which the hydraulic pressure is formed.

At this time, various natural energies such as buoyancy gravity due to buoyancy gravity and water level fluctuation are converted into rotational force and up / down kinetic energy by the rotational force using the water flowing through the aberration 31, ), Which generates irregular high oil pressure.

The irregular hydraulic pressure generated by the hydraulic pump 32 is converted into a positive pressure through the high-pressure oil storage cylinder device 5 and supplied to the hydraulic generator 4 with a constant-pressure hydraulic pressure suitable for power generation.

It will be apparent to those skilled in the art that various modifications and equivalent arrangements may be made therein without departing from the scope of the present invention as defined by the appended claims and their equivalents. . Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

1: Hydraulic power generation system 2: Main body
3: Hydraulic generating means 31: Water turbine
32: Hydraulic pump 33: Rotary link
34: Connection link 4: Hydraulic generator
5: high pressure oil storage cylinder device 51: body
511: Inflow check valve 512: Discharge check valve
52: constant pressure piston 53: high oil pressure applied weight
54: Guide rod 110: Hydraulic storage tank

Claims (2)

A main body 2; An aberration 31 provided in the main body 2 and adapted to rotate forward and backward in accordance with a flow of water level and pressure applied from the outside to generate normal and rotational energy, A hydraulic pressure generating means (3) having a hydraulic pump (32) adapted to form a hydraulic pressure; A hydraulic generator 4 that is supplied with the hydraulic pressure generated by the hydraulic pressure generating means 3 to convert the rotary energy into rotational energy and convert the converted rotational energy to electric energy to generate electric power; The hydraulic pressure generator 3 is provided with a hydraulic pressure generated by the hydraulic pressure generator 3 and supplied to the hydraulic power generator 4. The hydraulic pressure is generated by the hydraulic pressure generator 3, And a high-pressure oil storage cylinder device (5) adapted to supply the high-pressure oil storage cylinder device
The aberration 31 is coupled to the main body 2 by a shaft and a bearing so as to be rotatable on an end of a rotating link 33 which is rotatably pivotally connected to the main body 2;
The hydraulic pump (32) includes a pump cylinder (321) rotatably fixed on a part of the rotary link (33); A pump rod 322 axially rotatably connected to the connection link 34 whose longitudinal end is connected to the rotation axis of the aber 31 and rotated in the same direction, And a pump piston having a first end and a second end;
The high-pressure oil storage cylinder device (5)
A body 51 having a space portion formed with an inflow check valve 511 flowing into the inside and a discharge check valve 512 being discharged; A static pressure piston (52) which is formed in the space portion of the body (51) to form a static pressure due to its own weight, descending downward under the action of gravity; A plurality of weight plates (53) capable of applying a constant load to the static pressure piston (52);
The weight plates (53)
And a piston rod (54) assembled on the static pressure piston (52) and guided while being extended to the outside of the body (51). delete

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