KR101241134B1 - Tidal current electrical generating fevice - Google Patents

Abstract

The present invention relates to an algae power generation device, and more particularly, to an algae power generation device that generates electric energy in an algae power generation unit by algae flowing at a flow rate higher than a predetermined speed, wherein the algae power generation unit rotates in a cylindrical stator and the stator. It consists of electrons so that the algae passes through the inside of the cylindrical rotor, and each of the water inlet and outlet of the algae generating unit is provided with a hopper for collecting the incoming algae to the cylindrical rotor side, respectively, the algae introduced into the inner surface of the hopper A plurality of vortex generating wings for vortexing in a predetermined predetermined direction integrally protruded to have a predetermined interval and angle, the inner side of the cylindrical rotor flows in the form of vortex through the hopper in any direction of the bidirectional The rotor will continue to rotate in only one direction It is characterized in that the plurality of rotational force generating means to be formed so as to protrude integrally or installed.
Therefore, the structure of the tidal current generator of the present invention can be manufactured and produced at a low price due to the simple structure, and the failure rate of the cylindrical rotor is very low, thereby greatly reducing the cost of maintenance and continuously irrespective of the flow direction of the tidal stream. Algae power generation can greatly increase the operating rate of the algae generator, as well as greatly reduce the production cost of electricity.

Description

Tidal current electrical generating fevice

The present invention relates to an algae power generation apparatus, and more particularly, a hopper is installed at both water inlets and outlets in the center of an algae power generation unit for generating electricity using naturally flowing algae and flow rates, and the algae are formed on the inner surfaces of the two hoppers. Install the vortex generating wings to increase the flow rate and assistance by vortexing in a predetermined direction, and installed a cylindrical rotor instead of a propeller or aberration inside the tide generator having a hopper installed in both water inlet and outlet However, on the inner surface of the cylindrical rotor is formed irrespective of the flow direction of the current by forming a rotational force generating means of a predetermined shape so that the current flowing in the vortex form in any direction of the flow in either direction can continue to rotate only in one direction It is invented so that the algae is continuously made.

In general, a generator is a device that converts mechanical energy into electrical energy, which requires a strong magnet to generate a magnetic field and a conductor that generates an electromotive force. The relative motion between the two causes electromagnetic induction.

The potential difference at this time is called electromotive force, and a current is generated in proportion to the electromotive force, and the magnitude of the electromotive force is proportional to the strength of the magnetic field and the length of the rotating conductor and the relative speed of the magnetic field and the rotating conductor.

The direction is in accordance with Fleming's right-hand rule. The generators are mainly used for rotating field type and rotating armature type. The magnet is a rotating generator, used as an alternator, the rotating armature is the opposite, widely used as a direct current generator.

On the other hand, algae power generation refers to the production of electrical energy from the flow of algae by installing a water turbine (turbine) in the sea where the water flows quickly. It uses natural tidal flow as it is, and it is separated from tidal power generation, which traps and flows seawater to the dam and uses turbines to turn the turbines into electricity.

Algae generation is an environmentally friendly alternative energy system that does not need to block dams to secure reservoirs (George), is free to fly around, does not interfere with fish movement and does not affect the surrounding ecosystem.

Today, mankind has a CO ₂ due to the indiscriminate use of fossil fuels We are experiencing abnormal climate by excessive discharge. As a result, the world suffers a lot of property and casualties every year. Therefore, for sustainable social development, much wisdom is needed to develop technologies that utilize renewable green energy (solar energy, wind power, wave power, tidal geothermal energy, etc.) that exist infinitely on the earth.

The ocean, which occupies 70% of the earth's surface, has infinite natural clean energy. Among them, tidal currents generated by the difference of tides have regularity to give full amount, so that the amount of energy that can be generated can be measured.

The characteristic of such tidal power generation is that the amount of energy per unit area is large, and tidal current is generated near the land, so it is convenient to use, and the same facility can be used in the river flowing inland.

In the situation where the need for energy use considering the environment is rapidly emerging, development of renewable energy is not an option but an essential situation. Solar, wind, and tidal energy is being developed as renewable energy, but solar heat can only be collected during daylight hours, and the efficiency is reduced to 10% in the morning and evening, and the efficiency is reduced by 20% due to bad weather. In the case of domestic geography, the efficiency is low, and it is not regular, so it is not suitable for generating electricity.In the case of tidal power, it is judged that domestic application is suitable for renewable energy along with wave energy. There is a problem that there is a limited place to obtain energy by using.

On the contrary, since algae flows in a certain region, algae energy can be said to be infinite clean energy that can be predicted to some extent and depleted no matter how used together with solar energy.

On the other hand, although the algae on the coast of Korea are abundant, the strong algae around 10kn are few and the algae of low flow rate are less than that. Even relatively low tidal currents around 3kn on average should produce electricity without damming the dams or damaging nature.

Although there are propellers and aberrations as a device to convert tidal currents into rotational forces, propellers must be limited in size and magnified due to the characteristics of the vane face, but the coastal environment of Korea is inadequate to install a propeller that must be magnified due to its low depth. Since the fluid acts as a square on the vane surface, the working energy is dispersed and the amount of energy absorbed can not exceed 25%.

The plate of the aberration allows absorption of a large amount of mass flow energy because the fluid can act vertically, but in the lower semicircle the direction of the tidal flow and the direction of rotation of the aberration are the same, but in the upper semicircle the direction of rotation of the aberration is opposite to the tidal direction. There was a problem of falling efficiency.

In addition, in the case of the propeller, the tide can be rotated only when the tide flows continuously over a predetermined flow rate in any one direction. (E.g., in the direction of operation at low tide or high tide), the propeller is driven in the power generation direction only when the algae flows in one direction.

However, the flow direction of the tidal current has a characteristic that changes from time to time, so in addition to the installation of a rudder, etc. in the tidal current generator, and also to install a rotor such that the direction of the propeller is always perpendicular to the flow direction of the tidal current There is a problem that the manufacturing cost is unnecessarily increased.

In addition, the propellers and aberrations are directly hit by the tide and rotated, so that cracks and breakages occur easily during long-term use, resulting in high costs due to the maintenance of the algae generators. There is a problem that the operation rate is also greatly reduced.

1. Republic of Korea Patent Publication No. 10-1185642 (September 18, 2012) 2. Republic of Korea Patent Publication No. 10-0900415 (May 26, 2009) 3. Republic of Korea Patent Publication No. 10-2011-0084392 (July 22, 2011)

The present invention has been made in order to solve such a conventional problem, when constructing a tidal current generating device that generates electricity by using the flow rate of the tidal flow, the tidal power generation unit having a stator and a rotor integrally placed in the center Hoppers are installed at both sides of the water inlet and outlet, and vortex generating wings are installed on the inner surfaces of the two hoppers to increase the flow velocity and the help by vortexing the tidal flow in a predetermined direction, and a cylindrical shape is formed inside the tidal power generation unit. Rotor having a predetermined shape, the rotational force generating means of a predetermined shape so that the current flowing in the vortex form through the hopper on the inner surface of the cylindrical rotor can be continuously rotated only in one direction even in either direction Its structure is simple because it protrudes or installs them integrally. It is possible to manufacture / produce the whole equipment, and the failure rate of the cylindrical rotor is very low, which can greatly reduce the cost of maintenance, and it is possible to continuously generate algae regardless of the flow direction of the algae, thereby increasing the operation rate of the algae generator. It is an object of the present invention to provide a tidal current generator that can greatly increase the production cost of electricity as well as significantly.

The present invention device for achieving the above object, in the algae generator for generating electrical energy in the algae power generation unit by the flow of the algae flowing at a flow rate of a predetermined speed or more, the algae power generation unit cylindrical in the cylindrical stator and the stator rotating It consists of a rotor so that the algae passes through the interior of the cylindrical rotor, and the hopper for collecting the incoming algae to the cylindrical rotor side on both sides of the water inlet and outlet of the tidal power generation unit, respectively, which is introduced into the inner surface of the hopper A plurality of vortex generating wings for vortexing the algae in a predetermined direction integrally formed, and a plurality of rotors to be rotated by the algae flowing in the form vortexing through the hopper on the inner surface of the cylindrical rotor It is characterized in that the rotational force generating means integrally molded or installed.

In addition, ball bearings are respectively provided at both ends between the inner surface of the cylindrical stator and the outer circumferential surface of the cylindrical rotor.

At this time, the plurality of vortex generating blades respectively provided at both ends of the tidal power generation unit is characterized in that the curved in the opposite direction.

In addition, the rotational force generating means of the cylindrical rotor is formed to be inclined to the rear toward the opposite direction with respect to the vertical edge formed at the intersection of the center line is vortexed through the hopper installed in a position adjacent to each other corresponding to the flow direction of the tidal flow A first and second water impingement inclined surfaces for causing the cylindrical rotor to rotate in a predetermined direction in the cylindrical stator by a current flowing into the state, and a rear side at the top edge of the first and second water impingement inclined surfaces. Between the inner surface of the cylindrical rotor is characterized in that the inclined surface for reducing the friction force.

In addition, at the top edges of the first and second water bumping slopes, a frictional force enhancing piece having a curved shape may be further formed, and the algae poured after hitting the first and second water bumping slopes may increase the frictional force increasing piece. It is characterized in that to hit the diffraction to enhance the rotational force of the cylindrical rotor.

As described above, according to the tidal current generator of the present invention, the tidal power generation unit is composed of a cylindrical stator and a cylindrical rotor so that the algae passes through the inside of the cylindrical rotor, but the water inlet and outlet of both sides of the tidal power generation unit is located on the inner surface. A plurality of vortex generating wings for swirling the tidal flow in a predetermined direction has a configuration formed integrally protruding with a predetermined interval and angle, respectively installed a hopper for collecting the incoming tidal current to the cylindrical rotor side, the cylindrical rotor By internally protruding or installing a plurality of rotational force generating means integrally so that the rotor can be rotated continuously in only one direction even if the tidal current flowing in the vortex form through the hopper flows in either direction. Simple structure and manufacture / produce algae generator at low price In addition, the failure rate of the cylindrical rotor is very low, which greatly reduces the cost of maintenance, and can continuously generate algae regardless of the flow direction of the algae, thereby greatly increasing the operation rate of the algae generator. Of course, it is a very useful invention, such as to significantly reduce the production cost of electricity.

1 is a partially cut-away perspective view of an algae power generation apparatus to which an embodiment of the present invention is applied.
2 is a partially enlarged perspective view of the rotation force generating means of FIG.
Figure 3 is a front cross-sectional view of the tidal current generator is applied to an embodiment of the present invention.
Figure 4 is a side view of a tidal current generator applied to an embodiment of the present invention.
5 is a partially cutaway perspective view of a tidal current generator applied to another embodiment of the present invention.
Figure 6 is a side view of a tidal current generator applied to an embodiment of the present invention.

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

1 is a partially cutaway perspective view of an algae generator to which an embodiment of the present invention is applied, FIG. 2 is a partially enlarged perspective view of a rotation force generating means of FIG. 1, and FIG. 3 is a tidal power generation to which an embodiment of the present invention is applied. 4 is a front sectional view of the apparatus, and FIG. 4 is a side view of the tidal current generator to which an embodiment of the present invention is applied.

In addition, Figure 5 shows a partial perspective view of a section of the algae generator is applied to another embodiment of the present invention, Figure 6 shows a side view of the algae generator is applied to an embodiment of the present invention.

According to the present invention,

In the algae power generation device is installed in the algae flowing at a flow rate of a predetermined speed or more to generate electric energy in the algae generator 100 is rotated in response to the flow rate of the algae,

The algae generating unit 100 is composed of a cylindrical stator 110 and a cylindrical rotor 120 that rotates within the stator so that the algae passes through the inside of the cylindrical rotor 120,

On both sides of the water inlet and outlet 101 and 102 of the tidal power generation unit 100 are installed hopper 200 for collecting the incoming algae to the cylindrical rotor 120 side, respectively, on the inner surface of the hopper 200 Protruding and integrally forming a plurality of vortex generating blades 210 for vortexing the current flow in a predetermined direction having a predetermined interval and angle,

On the inner surface of the cylindrical rotor 120, a plurality of rotational force generating means for allowing the rotor to continue to rotate only in one direction even if the current flowing in the vortex form through the hopper 200 in either direction 140 is integrally formed by protruding molding or installing.

In addition, ball bearings 130 are installed at both ends between the inner surface of the cylindrical stator 110 and the outer circumferential surface of the cylindrical rotor 120 to minimize the frictional force when the cylindrical rotor 120 is rotated by a bird. It is characterized by one.

At this time, the plurality of vortex generating wings 210 respectively installed at both ends of the algae generating unit 100 are formed to be curved in the opposite direction to each other, even if the algae flows in either direction, the cylindrical rotor 120 is one side It continues to rotate only in the direction is characterized in that the tidal current generation unit 100 generates a power generation voltage continuously regardless of the flow direction of the tidal current.

In addition, the rotational force generating means 140 of the cylindrical rotor 120,

Through the hopper 200 which is formed to be inclined at an angle determined by the rear portion toward the opposite direction about the vertical edge 141 formed at the intersection of the center line in the vertical and horizontal directions, and installed at positions adjacent to each other in correspondence with the flow direction of the algae. The first and second water impingement inclined surfaces 142 such that the current flowing in the vortex is directly hit and the cylindrical rotor 120 is rotated in only one direction in the cylindrical stator 110 regardless of the flow direction of the current. 143,

Passes through the inside of the cylindrical rotor 120 between the rear side and the inner surface of the cylindrical rotor 120 at the upper surface horizontal edges of the first and second water bumping slopes 142 and 143. Slope 144 for reducing the friction force such that the algae spilled after hitting any one of the second water bumping slopes 142 and 143 rub against the inner surface of the cylindrical rotor 120 and discharges smoothly to the outside. It is characterized by having).

In addition, a frictional force enhancing piece 145 having a curved shape is further formed at the upper surface horizontal edges of the first and second water bumping inclined surfaces 142 and 143 to form the first and second water bumping inclined surfaces. Birds poured after hitting (142) (143) is diffracted by hitting the frictional force enhancer 145 is characterized in that to enhance the rotational force of the cylindrical rotor (120).

Referring to the operational effects of the present invention the algae generator configured as described above are as follows.

First, as shown in FIGS. 1 to 4, one embodiment of the present invention omits the algae generating unit 100 of the algae generating apparatus that generates electric energy in response to algae flowing at a flow rate higher than a predetermined speed. A cylindrical stator 110 having a three-phase coil or the like and a cylindrical rotor 120 including a permanent magnet (not shown) and rotating in the stator are configured to rotate the tidal current of the tidal current generating unit 100. (120) It is to be a basic major technical component to let go through.

At this time, the basic configuration and function of the stator and the rotor is generally the same as the stator and the rotor of a well-known generator, so the illustration of a specific configuration is omitted.

In addition, in the present invention, by installing the hopper 200 having a funnel shape on both sides of the water inlet and outlet 101, 102 of the algae generating unit 100 having a cylindrical shape as a whole different from the ebb or tide The algae flowing in the direction of the algae power generation unit 100, the cylindrical rotor 120 to give to give, but the inner surface of the hopper 200 a plurality of vortex generating blades 210 at a predetermined interval and angle It is another main technical component that is formed so as to protrude integrally to form a flow to the cylindrical rotor 120 by vortexing the algae collected through the hopper 200 in a predetermined direction. .

In addition, in the present invention by integrally protruding or installing a plurality of rotational force generating means 140 on the inner surface of the cylindrical rotor 120, the algae flowing in the form of the vortex through the hopper 200, algae generating unit The cylindrical rotor 120 continues to rotate in only one direction even when the water inlet and outlet of both sides of the (100) 101 (102) is introduced through any water inlet and outlet (i.e., in either direction) Another major technology component is to ensure that algae development continues regardless of the algae flow direction.

In addition, in the present invention, by installing the ball bearing 130 at both ends between the inner surface of the cylindrical stator 110 and the outer circumferential surface of the cylindrical rotor 120, the cylindrical rotor 120 is rotated by a bird The cylindrical rotor 120 is rotated with a minimum frictional force with the stator 110.

In addition, the plurality of vortex generating wings 210 respectively installed at both ends of the algae generating unit 100 are formed to be curved in opposite directions to each other, even if the algae flows in either direction, the cylindrical rotor 120 is one side Continued to rotate only in the direction has a form to continuously generate the power generation voltage irrespective of the flow direction of the tidal current generation unit 100.

On the other hand, the rotational force generating means 140 of the cylindrical rotor 120 is basically provided with the first and second water inclined slope 142, 143 and the friction surface reducing slope 144 integrally and the hopper ( The cylindrical rotor 120 is directed in one direction even if the algae flowing in the form of the vortex through the 200 flows through either the water inlet and outlet of both sides of the water inlet and outlet 101 and 102 of the algae power generation unit 100. Only to continue to rotate.

In this case, the first and second water-impact inclined surfaces 142 and 143 are opposite to each other about the vertical edges 141 formed at the centerline intersections of the vertical and horizontal directions in the cylindrical rotor 120. The inclined surface 142 for impinging the first and second water impingement flows in a state in which the current is vortexed through the hopper 200 installed at a position adjacent to each other in correspondence with the flow direction of the bird by forming an inclined angle to the rear part toward the rear portion. Since one of the 143 directly hits the inclined surface for water bumping, the cylindrical rotor 120 rotates only in one direction in the cylindrical stator 110 regardless of the inflow direction of the algae.

In addition, the friction reducing slope 144 is inclined between the horizontal edge formed on the upper surface portion of the first and second water bumping inclined surface 142, 143 and the rear side and the inner surface of the cylindrical rotor 120. The algae poured after passing through the inside of the cylindrical rotor 120 or hitting one of the first and second water bumping slopes 142 and 143 for the water bumping slope are formed in the cylindrical rotor 120. ) Has a minimum friction with the inner surface and is smoothly discharged to the outside along the inclined surface 144 for reducing the frictional force.

In addition, in the present invention, if necessary, as shown in FIGS. 5 and 6, the friction force reinforcing piece 145 having a curved shape is further formed at the horizontal edges of the first and second water bumping slopes 142 and 143. Diffraction by the curved surface of the frictional force enhancer 145 when the tide flows after hitting the inclined surfaces 142 and 143 for the first and second water impingement impacts the frictional force enhancer 145 again As the pressure is applied to the cylindrical rotor 120, the rotational force of the cylindrical rotor 120 is further enhanced.

In the state of installing the present invention device having such a configuration in the water, for example, due to the ebb tide through the hopper 200 on the left side as shown in the arrow of FIG. When it is assumed that the algae flows into the cylindrical rotor 120 through the water inlet and outlet 101, the algae introduced into the cylindrical rotor 120 in the form of vortex through the hopper 200 is a rotational force generating means ( Of the 140, the first water bumping inclined surface 142 is primarily hit and gives a strong pressure, as well as the frictional force enhancement piece 145 is provided at the top edge of the first water bumping slope 142 In this case, since the tide hitting the first water-impacting inclined surface 142 and then spilled into the friction force-enhancing piece 145 is secondarily diffracted and gives a stronger pressure, the cylindrical rotor 120 is viewed. Bear With a 130 to rotate between the inside of the cylindrical stator 110 in a counterclockwise direction as shown by the arrow.

Therefore, although not shown, an alternating current generation voltage corresponding to the rotation speed of the cylindrical rotor 120 is output from the stator coil wound around the cylindrical stator 110 of the tidal current generation unit 100.

On the other hand, in contrast to the above, for example, due to the high water flows through the hopper 200 on the right side of the drawing and into the cylindrical rotor 120 through the other water inlet and outlet 102 of the tidal power generation unit 100 If it is assumed that the flow of algae, the inflow of the algae flows into the cylindrical rotor 120 in the form of vortex through the hopper 200 as shown in the arrow of FIG. The first impact on the second water bumping inclined surface 143 formed to be inclined in the opposite direction to the 142 and gives a strong pressure, as well as the frictional force enhancement piece in the upper edge of the second water bumping inclined surface 143 When the 145 is provided, the tide that has been hit by the second water bumping inclined surface 143 and then pours onto the friction force enhancer 145 is diffracted and gives a stronger pressure to the secondary. The cylindrical rotor 120 rotates counterclockwise (ie, rotates in the same direction as at low tide) inside the cylindrical stator 110 with the ball bearing 130 interposed therebetween.

Therefore, although not shown, the number of revolutions of the cylindrical rotor 120 that always rotates in a constant direction regardless of the inflow direction of the algae in the stator coil wound on the cylindrical stator 110 of the tidal power generation unit 100 As the alternating current voltage is continuously output, the operation rate of the algae generator can be greatly increased, and the production cost of electricity can be greatly reduced.

The algae, including the first and second water impingement inclined surfaces 142 and 143, hit the frictional force enhancing piece 145 and then pour or pass through the center portion of the cylindrical rotor 120 as it is. Since the first and the second water bumping surface 142, 143 is smoothly automatically discharged to the outside riding the friction force reducing slope 144 formed inclined between the rear surface and the inner surface of the cylindrical rotor 120 and the rear side Due to the discharge pressure of the rotational speed of the cylindrical rotor 120 can be solved such a problem.

As described above, the device of the present invention is simple in structure and continuously tidal power generation is made regardless of the direction of the tidal flow, so that the tidal current generator itself can be manufactured / produced at a low price, and the cylindrical rotor itself is mounted on a propeller or aberration. Compared with this, the failure rate is very low, so the cost of maintenance can be greatly reduced, and the product itself and the reliability of the product can be greatly increased.

It should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

100: algae generator 101, 102: water inlet and outlet
110: cylindrical stator 120: cylindrical rotor
130: Ball Bearing
140: rotational force generating means 141: vertical edge
142, 143: slopes for the first and second water bumps
144: slope for reducing frictional force 145: frictional force increasing piece
200: hopper 210: vortex generating wing

Claims (5)

In the algae generating apparatus for generating electrical energy in the algae generating unit by the algae flowing at a flow rate of a predetermined speed or more,
The algae generating unit is composed of a cylindrical stator and a cylindrical rotor rotating in the stator so that the algae passes through the inside of the cylindrical rotor,
On both sides of the water inlet and outlet of the tidal power generation unit is provided with a hopper for collecting the incoming algae to the cylindrical rotor side, the inner surface of the hopper protrudes a plurality of vortex generating wings for vortexing the incoming algae in a predetermined direction ,
On the inner surface of the cylindrical rotor, a tidal current generator characterized in that the plurality of rotational force generating means to integrally protrude or shape the rotor to be rotated by the current flowing in the vortex form through the hopper.
The method according to claim 1,
A tidal current generator, characterized in that ball bearings are installed at both ends between an inner surface of the cylindrical stator and an outer circumferential surface of the cylindrical rotor.
The method according to claim 1,
A plurality of vortex generating wings respectively provided on both ends of the algae generating unit is formed to be curved in the opposite direction to each other.
The method according to claim 1,
Rotation force generating means of the cylindrical rotor,
The cylindrical stator is formed by inclining backwards toward the opposite direction with respect to the vertical edge formed at the intersection of the center lines, so that the cylindrical rotor is introduced into the vortex through a hopper installed in a position adjacent to each other in correspondence with the flow direction of the tidal flow. Having inclined surfaces for the first and second water bumps to rotate in a predetermined direction within the
An algae generator, characterized in that an inclined surface for reducing the friction force between the rear side and the inner surface of the cylindrical rotor at the upper edge of the first and second water impingement inclined surface.
The method of claim 4,
At the top edges of the first and second water bumping inclined surfaces, a friction force enhancing piece having a curved shape is further formed, such that the algae spilled after hitting the first and second water bumping inclined surfaces collide with the friction force enhancing piece. Algae generator characterized in that to diffract to increase the rotational force of the cylindrical rotor.

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