KR100650793B1 - Buoy - Google Patents

Abstract

A float is provided to improve self-power generation efficiency by generating electromotive force correspondently to the change of magnetic force by using a coil or a permanent magnet installed in a housing of a power generating unit. The float having a display lamp for night and floating in the sea is composed of a tumbling doll-shaped body of which a lower side is expanded wider than an upper side; a solar cell installed at the upper part of the body; a power generator mounted at the body to generate electricity by a shaking motion of the tumbling doll-shaped body generated due to wave power; a condenser(165) storing power generated by the solar cell and the power generator and supplying the power to a power driving element; and a control unit controlling the supply of power from the condenser to the lamp. The power generator comprises a pendulum(153) vertically extended about a hinge(151) installed in an inner space of the body to horizontally move about the hinge and composed of a first gear disposed at the upper end and a weight(155) installed at the lower end and a power generating unit rotated by interlocking with the rotation of the first gear of the pendulum to generate power correspondent to the rotation.

Description

Buoy {buoy}

1 is a perspective view showing a buoy according to a preferred embodiment of the present invention,

2 is a cross-sectional view showing an example of a generator installed in the pentagon-shaped body of Figure 1,

3 is a view showing another example of a power transmission structure between the first gear of the pendulum and the power generation unit of FIG.

Figure 4 is a perspective view of a portion showing another embodiment of the generator installed in the pentagon-shaped body of Figure 1,

FIG. 5 is a block diagram illustrating a control system for some elements installed in the bloated body of FIG. 1.

<Description of Symbols for Major Parts of Drawings>

110: Ottogi body 120: solar cell

142: lamp 165: capacitor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a buoy, and more particularly, to a buoy which is capable of generating light by itself.

Buoys are installed in the ocean and are usually formed to emit light at night, and are used for indicating the location of marine farms, offshore structures, etc., and for guiding the safe course of the ship. In recent years, it is also used for ocean observation to explore the marine ecological environment.

Such a buoy should normally be constructed so that the lamp can emit light with its own power. In the related art, it is inconvenient to frequently change the battery since the lamp can emit light depending only on a built-in battery. In addition, there is a problem in that it is difficult to add a power consumption element by the limited power supply capability when trying to add an element driven by power to add various functions.

Considering a structure in which a solar cell is mounted on a buoy to improve such a problem, the generated power is proportional to the area of the light collecting plate, so that the power that can be generated when the size of the buoy is small is limited.

The present invention has been made to improve the above problems, and an object thereof is to provide a buoy to increase the amount of power generation.

In order to achieve the above object, the buoy according to the present invention includes a buoy-shaped body having a lower portion wider than an upper portion in a buoy floated in the ocean by mounting a nighttime display lamp; A solar cell installed on an upper portion of the body; A generator installed in the body to generate electricity in accordance with the oscillation motion caused by the wave force of the bloated body; A capacitor for storing power generated by the solar cell and the generator and supplying power to a power driving element; And a control unit controlling power supply from the capacitor to the lamp.

According to an aspect of the present invention, the generator is extended in the vertical direction about the hinge installed in the inner space in the pentagon-shaped body is installed to be rotated in the left and right direction around the hinge, but the first gear is formed at the top A pendulum with weights installed at the bottom; And a power generation unit installed to rotate in conjunction with the rotation of the first gear of the pendulum to generate electric power corresponding to the rotation.

According to another aspect of the invention, the generator is formed to extend in the horizontal direction in the inner space in the pentagon-shaped body, there is at least one coil tube with a sliding groove is formed in the inside and the coil is wound on the outside; And a permanent magnet installed in the sliding groove in the coil tube so as to be moved according to the swing of the pentagonal body.

In another alternative, the upper portion of the pentagon-shaped body and the fan rotates by wind power; And a power generation unit coupled to the rotation shaft of the fan to generate electricity in association with the rotation of the rotation shaft.

Preferably, the Ottogi-shaped body has a built-in GPS receiver, and the controller is configured to wirelessly transmit the position information received from the GPS receiver through the transmitter.

Hereinafter, with reference to the accompanying drawings will be described in detail a buoy according to a preferred embodiment of the present invention.

1 is a perspective view showing a buoy according to a preferred embodiment of the present invention.

Referring to the drawings, the buoy 100 includes an pentagonal body 110, a solar cell 120, a fan 131, and a lamp 142.

Ottogi-shaped body 110 is formed in the form of a wide bottom and a narrow upper portion in a conventional Ottogi form with high resilience to the water surface.

The recessed body 110 is composed of upper and lower bodies 112 and 116 to be assembled to each other to allow the opening of the inner space.

The upper surface of the lower body 116 and the lower surface of the upper body 112 are formed with flange portions 117 and 113 protruding outwards to face each other, and penetrates corresponding to each flange portion 117 and 113. The coupling hole is formed so as to be mutually coupled and separated by the screw 118.

The sealing packing member is inserted between the flange portions 113 and 117.

The upper portion of the upper body 112 is formed to have a flat plane portion 114, the triangular pagoda structure 115 is formed to extend gradually upward in a predetermined distance from the plane portion 114, but gradually narrowed toward the upper portion It is installed.

Solar cells 120 are arrayed on the outer circumferential surfaces of the exposed flat portion 114 and the triangular tower structure 115.

The flat part 114 and the triangular tower structure 115 provide an advantage of expanding the mounting space of the solar cell 120.

Power generated by the solar cell 120 is charged by a capacitor described later.

The lamp 142 is installed on the rod-shaped support 125 extending upward from the upper end of the triangular tower structure 115.

The lamp 142 is provided in the sealing light transmission case 143.

The fan 131 is rotatably supported by the power generation unit 135 installed at the top of the rod-shaped support 125 and rotates according to the wind direction.

The power generation unit 135 is coupled to the rotation shaft 131 of the fan 131 to generate power in accordance with the rotation of the rotation shaft 131. The power generation unit 135 is a conventional power generation structure, that is, a permanent magnet or a coil is wound in the rotor of the rotating shaft of the fan 131, the coil or permanent magnet is formed in the housing of the power generation unit 135 is a magnetic force In this case, the electromotive force may be generated in response to the change.

The power generation unit 135 is installed to be rotatable with respect to the rod-shaped support 125 so that the fan 131 is positioned to face the wind direction.

Power generated by the generator 135 is charged by a capacitor.

In addition, of course, a charging circuit may be further provided to charge the capacitor through a rectifier, for example, a bridge diode and a capacitor, in order to convert the power generated by the generator 135 into direct current.

On the other hand, the lower body 116 is formed with a coupler 119 for coupling with the anchor 103 is installed on the seabed with a wire or rope, therein can generate electric power by the rocking motion by the wave force Power generation equipment is built in. Unlike the illustrated example, the buoy 100 may be used to be combined with subsea facilities other than the anchor 103 or to be moved by sea current in a suspended state.

An example of a power generation facility embedded in the body 110 is shown in FIG. 2.

Referring to FIG. 2, the pendulum 153 extends up and down so as to be rotated by the hinge 151, and a power generation unit 157 interlocked with the rotation of the pendulum 153 to generate power.

The pendulum 153 is rotatably installed in the left and right directions about the hinge 151 in the inner space of the pentagon-shaped body 110, and extends upwardly about the hinge 151. A first gear 154 having a gear formed along a rotational trajectory is formed at an end thereof, and a weight 155 is provided at an end of the second portion 153b extending downward from the hinge 151.

In the illustrated example, although the first gear 154 has a sector gear, a circular gear may be applied.

The power generation unit 157 is installed to be engaged with the first gear 154 to generate electricity by the rotation of the movable gear 156 which can be rotated in conjunction with the rotation of the first gear 154.

The generator 157 may be directly connected to the rotating shaft 156a of the movable gear 156, and unlike the illustrated example, an accelerator is installed between the movable gear 156 and the generator as shown in FIG. Can be applied. In the illustrated example, a driven gear 161 installed to be able to rotate coaxially with the movable gear 156 and an accelerator gear 162 installed to be engaged with the driven gear 161 is applied as an accelerator. In this case, the gear structure of the driven gear 161 and the accelerator gear 162 may be applied so that the relative rotation ratio of the movable gear 156 and the accelerator gear 162 becomes high.

Meanwhile, the one-way clutch 163 may be installed between the power generation unit 157 and the accelerator gear 162 to transmit power to the power generation unit 157 only when rotating in the set direction among the rotation directions of the movable gear 156. Of course.

Figure 4 shows a power plant of another embodiment.

The generator includes a coil pipe 172 and a permanent magnet 176.

The coil pipe 172 is formed to extend in the horizontal direction in the inner space in the pentagon-shaped body 110, the inside of the sliding groove 173 is formed a predetermined length and the coil 174 is wound on the outside.

At least one end of both ends of the coil pipe 172 is preferably formed to be opened and closed by the cap 175.

The permanent magnet 176 is applied to the sliding groove 173 is formed in a shape corresponding to the sliding possible. In addition, the length of the permanent magnet 176 is smaller than the length of the sliding groove 173 is applied.

The generator of such a structure changes the magnetic field while the permanent magnet 176 is transferred in the inclined direction when the coil tube 172 is tilted by the swinging motion of the body 110 through the coil 174 of the coil tube 172. Generates electromotive force

The capacitor 165 charges the power output from each of the power generation units 135 and 157, the coil tube 172, and the solar cell 120, and supplies the charged power to each power driving element. When the driving voltage of each power driving element is different, it may be further provided that a converter for converting the voltage output from the capacitor 165 into a transformer or alternating current phase.

Preferably, the capacitor 165 is mounted on the bottom surface of the lower body 116 in order to increase the restoring force of the pentagonal body 110.

The buoy 100 may be equipped with an additional power driving element according to the application, for example, as shown in Figure 5, GPS receiver 181, red tide sensor 183, camera 185, And a transmitter 186.

The installation position of the camera 185 may be installed on the body 110 to capture underwater or sea according to a desired imaging area.

The red tide sensor 183 may be mounted to be exposed downward from the body 110 to be in contact with the seawater, and in addition to the red tide sensor 183, a sensor suitable for a measurement target such as water temperature may be further added.

The transmitter 186 is controlled by the control unit 188, the current position information calculated from the transmission target information, for example, the information received through the GPS receiver 181 or image information captured by the camera 185, red tide sensor 183 Can be configured to send out various types of information such as information detected at a predetermined period or at a request from a control station (not shown) or when it is determined to be abnormal according to a set abnormal condition.

The controller 188 controls the on / off of the lamp 142 through the lamp driver 187.

That is, when it is determined that the illuminance detected by the illuminance sensor (not shown) is lower than the set illuminance, the controller 188 controls the lamp driver 187 to emit light, and the illuminance detected by the illuminance sensor is set. When it is determined that the illuminance is higher, the lamp 142 may be configured to control the lamp driver 187 to be turned off, or may be configured to emit the lamp 142 only at a set night time.

Alternatively, the controller 188 may control the lamp driver 187 to blink at a predetermined interval in the lamp driving mode.

Some elements of the GPS receiver 181, the red tide sensor 183, the transmitter 186, and the camera 185 may be omitted depending on the intended use, and other elements may be added. Of course.

On the other hand, when the GPS receiver 181, the transmitter 186, and the control unit 188 is constructed to transmit setting information including position information, for example, distress message information in the set period or driving-on mode, The buoy 100 may be mounted for emergency use so that the distress position information may be transmitted using the buoy 100 during ship distress.

According to the light emitting buoy according to the present invention as described so far, it provides an advantage that can increase the power generation capacity using natural forces.

Claims (5)

delete In the buoy floated in the sea with a night display lamp, An ottract body having a lower portion wider than the upper portion; A solar cell installed on an upper portion of the body; A generator installed in the body to generate electricity in accordance with the oscillation motion caused by the wave force of the bloated body; A capacitor for storing power generated by the solar cell and the generator and supplying power to a power driving element; And a control unit controlling power supply from the capacitor to the lamp. The generator is extended in the vertical direction about the hinge installed in the inner space in the pentagon-shaped body is installed so as to rotate in the left and right direction around the hinge, the first gear is formed at the top, the weight pendulum is installed at the bottom Wow; And a power generation unit installed to rotate in conjunction with the rotation of the first gear of the pendulum to generate power corresponding to the rotation. In the buoy floated in the sea with a night display lamp, An ottract body having a lower portion wider than the upper portion; A solar cell installed on an upper portion of the body; A generator installed in the body to generate electricity in accordance with the oscillation motion caused by the wave force of the bloated body; A capacitor for storing power generated by the solar cell and the generator and supplying power to a power driving element; And a control unit controlling power supply from the capacitor to the lamp. The generator is formed in the horizontal space in the inner space in the hollow body, at least one coil pipe with a sliding groove is formed in the inside and the coil is wound on the outside; And a permanent magnet installed in the sliding groove in the coil tube so as to be moved according to the swing of the pentagonal body. According to claim 2 or 3, wherein the top of the pentagon-shaped body and the fan rotates by wind power; And a power generation unit coupled to the rotational shaft of the fan to generate electricity in association with the rotation of the rotational shaft. delete

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