KR101251189B1 - Generating device for buoy - Google Patents

Abstract

PURPOSE: A power generating device for an offshore buoy is provided to produce electricity by being operated by the power of waves regardless of weather or environmental conditions. CONSTITUTION: A power generating device for an offshore buoy comprises a base plate(20), struts(24), a power generating unit(22), a first support plate(27), a first support fitting, a second support fitting, a spherical supporter, a rod body, a permanent magnet, a second support plate(28), an AFPM(Axial Flux Permanent Magnet) type motor(29), a rotation fitting(40), a charging device, a CPU, a battery, and a wire(23). The base plate has bolt holes(21) to be fixed on the bottom of a first sealing chamber of the buoy by bolts. The struts are erected on the base plate, and comprise lower screw rods(25a) and upper screw rods. The lower screw rods of the struts are fixed on the base plate by nuts. The power generating unit protects a coil(22b) and is fixed at the center of the top of the base plate by bolts. The first support plate is assembled while being penetrated by the upper screw rods of the struts. The first and second support fittings are fixed at the center of the first support plate by a bolt and a nut, and have a graphite bushing inside. The supporter is inserted into the graphite bushing of the first and second support fittings, and has a hole at the center and a screw hole crossing at right angle to the hole. The second support plate is fixed on the top of pipes(26), in which the upper screw rods are fitted, by nuts.

Description

Generating device for buoys {Generating device for buoy}

1 is a reference diagram showing a state of use of the present invention.

2 is a partially enlarged view of FIG. 1.

Figure 3 is a longitudinal sectional view of the present invention (hatching not shown).

4 is an enlarged cross-sectional view showing only a part of FIG. 3.

FIG. 5 is an enlarged sectional view taken along the line B-B based on FIG. 4. FIG.

6 is a partially enlarged cross-sectional view based on FIG. 4.

7 is a partially enlarged view based on FIG. 3.

8 is a plan view based on FIG. 3.

9 is a cross-sectional view taken along the line A-A based on FIG.

10 is a partially enlarged view based on FIG. 9.

The present invention relates to a marine buoy power generation apparatus.

In the deep sea, where it is very difficult to build a lighthouse, a buoy is provided for the safe operation of the ship by transmitting a position signal while serving as a lighthouse. The buoy's lamp and the circuit device for transmitting the position signal provide electricity. There is a limit that can only be consumed.

The solar panels are installed in Bui and high-performance batteries are installed in Bui to fill the battery through solar power generators. However, due to typhoons and waves, solar panels are contaminated by salt, microorganisms, algae and shellfish. As time goes by, there is a decisive disadvantage of loss of function, and the function decreases even if it rains or clouds for a long time, which leads to the conclusion that it is unsuitable for BUI's power supply. It is uneconomical and unreasonable, such as finding and repairing large numbers of buoys, repairing them, cleaning them, or replacing unstable parts.

On the other hand, research on using the wind power generator as a power supply for the buoy is continuing, but since the wind power generation system operates only when it receives wind, it must be exposed to the outside from the buoy, causing severe corrosion by salt. The failure rate is so high that it has not been commercialized to date.

Accordingly, an object of the present invention is to provide a marine buoy power generation apparatus capable of producing electricity by operating under the force of waves while being covered inside the buoy 1.

The present invention for solving the above-mentioned problems is constituted as follows.

A base plate 20 having a bolt through hole 21 for fixing to the bottom of the first sealed chamber 2 of the buoy 1 through a bolt;

A brace support 24 which is upright in all directions of the base plate 20 and has a lower screw rod 25a penetrating the base plate 20 through a nut and an upper screw rod 25 on the upper side thereof;

A generator 22 made of a metal casing 22c which protects the coil 22b wound around its periphery based on the center permanent magnet 22a and is fixed to the center of the upper surface of the base plate 20 through bolts;

A first support plate (27) assembled to be mounted on the end (24a) while penetrating the upper screw rod (25) of the brace support (24);

A first supporting member 80 and a second supporting member 70 fixed in the center of the first supporting plate 27 through bolts and nuts and having graphite bushings 81 and 71 therein;

)형 지지쇠(60)와;A screw hole inserted into the graphite bushings 81 and 71 of the first and second support holes 80 and 70 and having a hole 61 formed at the center thereof and intersecting the hole 61 at a right angle; Sphere with 62)

) And a support 60;

A hole 51 for penetrating into the hole 61 of the spherical support 60 and fixed by the tannery bolt 63 assembled to the screw hole 62 of the spherical support 60 is provided. A branch body 50;

A permanent magnet 52 inserted into and fixed to the bottom of the rod 50;

A second support plate (28) assembled to be mounted on the upper end of the tubular body (26) fitted to the upper screw rod (25) while penetrating the upper screw rod (25) of the prop support (24);

An AFPM (Axial Flux Permanent Magnet) motor 29 having a rotation shaft 31 penetrating the center of the second support plate 28 and fixed to an upper surface of the second support plate 28 through a bolt;

The groove 43 into which the upper end portion of the rod 50 is inserted below the boss 41 inserted into the rotation shaft 31 of the motor 29 of the AFPM method and fixed through the fixing bolt 32 is provided. A rotating bracket 40 having a fan-shaped body 42 formed therein;

A charging device and a CPU 8 fixed in the second hermetic chamber 3 of the buoy 1;

A battery 7 fixed in the second hermetic chamber 3 of the buoy 1 and connected to the charging device and the CPU 8;

The electric power generated by the electric wire 30 and the electric power generation device 22 for supplying the electric power generated by the AFPM motor 29 to the charging device and the CPU 8 is supplied to the charging device and the CPU 8. It characterized in that it comprises a wire 23 for supplying.

The embodiment of the present invention configured as described above will be presented, the nut for fixing the components of the present invention is well known, so the reference numerals are not specified separately, the base plate 20 of the buoy (1) It is also well known to fix the bolt to the bottom of the first sealed chamber 2 because it is a well-known level, the lamp 9 and the transmitting antenna 10 in the charging device and the CPU 8 of the present invention. Since connecting wires are well-known techniques, they are not stated otherwise in the drawings.

In addition, the AFPM motor 29 of the present invention is a commercially available product, which is a high-tech motor that can rotate a blade fixed to the rotation shaft 31 even with a weak wind force, which is already commercially available. The type of the AFPM motor 29 will not be described in detail, and as described below, the electricity produced through the AFPM motor 29 and the power generator 22 may be a charging device and a CPU. It is transmitted to (8) and this is a technology that is stored in the battery 7 is also commercialized level will not be described in detail in the present invention.

The present invention (P) is installed in the first sealed chamber 2 provided on the upper side of the buoy (1) as shown in Figure 1, looking at Figure 3 of the present invention permanent magnet 52 fixed to the lower end of the rod (50) It can be seen that the) stays in the air keeping a distance from the generator 22, the reason is that the upper end of the generator 22 forms an N pole and the lower end of the permanent magnet 52 N This is because the permanent magnet 52 has to maintain a constant distance from the upper end of the generator 22 as shown in Figure 3 because it forms a pole.

The rod 50 suspended from the permanent magnet 52 in this state is inclined while passing through the spherical support 60, the upper end portion is formed in the fan-shaped body 42 of the rotary bracket 40 It is located in the groove 43, the upper end portion of the rod 50 is located as far as possible from the boss 41 of the rotary bracket 40.

On the other hand, the spherical support 60 is supported by the graphite bushings 81 and 71 fixed in the first support 80 and the second support 70, and the graphite bushing 81 ( 71) is excellent in lubrication function by itself without supplying lubricating oil, so that there is no problem to rotate in the graphite bushings 81 and 71 and it is possible to operate semi-permanently.

In this state, when buoy (1) is shaken by the force of the repeated waves, the present invention (P) located above the buoy (1) is also shaken with isometric motion, at this time the permanent hanging on the rod (50) As the magnet 52 is also shaken, the permanent magnet 52 is not able to contact the generator 22 as described above and eventually rotates around the generator 22 by the repulsive force with the generator 22. As a result, the upper end portion of the rod 50 rotates the body 42 of the rotary bracket 40.

Therefore, the rotational shaft 31 is also rotated together, so that electricity is produced through the AFPM motor 29. At the same time, as described above, the permanent magnet 52 rotates around the generator 22. When the electricity is excited through the coil 22b of the generator 22 is produced, the electricity produced through the motor 29 and the generator 22 of the AFPM system in this way is the charging device and the CPU (8) Is stored in the battery (7), which is based on scientific evidence based on Fleming's law.

As described above, the electricity produced by the present invention is charged to the battery 7, which is supplied to the LED illuminating the lamp 9 while operating the charging device and the CPU 8.

On the other hand, since the apparatus of the present invention has little risk of structural failure, the first hermetic chamber 2 may be completely sealed by welding after being fixed in the first hermetic chamber 2 of the buoy 1. Since the charging device and the CPU 8 and the battery 7 may be repaired or replaced in any case, the charging device and the CPU 8 and the battery 7 should be separately installed in the second sealed chamber 3. good.

At this time, the second sealed chamber 3 is provided with an opening and closing door (4) having a water tight function (water tight function), which can be locked through the locking device (5) and opening and closing through the hinge (6) Naturally, the opening and closing door 4 may be changed into various structural forms. In some cases, the charging device, the CPU 8 and the battery 7 are installed in the first sealed chamber 2 and the first sealed chamber ( The door may be installed in 2).

And the base plate 20 of this invention is abbreviate | omitted, and the support post 24 and the generator 22 can be fixed to the bottom of the 1st airtight chamber 2.

As described above, the present invention is concealed in a first sealed chamber located at the upper part of the buoy so that it is not influenced by salt, microorganisms, algae, shellfish, etc. Can solve the disadvantages and problems caused by the solar and wind methods described above has a great effect that can be usefully used as an off-site power generation device.

Claims (1)

A base plate 20 having a bolt through hole 21 for fixing to the bottom of the first sealed chamber 2 of the buoy 1 through a bolt; A brace support 24 which is upright in all directions of the base plate 20 and has a lower screw rod 25a penetrating the base plate 20 through a nut and an upper screw rod 25 on the upper side thereof; A generator 22 made of a metal casing 22c which protects the coil 22b wound around its periphery based on the center permanent magnet 22a and is fixed to the center of the upper surface of the base plate 20 through bolts; A first support plate (27) assembled to be mounted on the end (24a) while penetrating the upper screw rod (25) of the brace support (24); A first supporting member 80 and a second supporting member 70 fixed in the center of the first supporting plate 27 through bolts and nuts and having graphite bushings 81 and 71 therein; A screw hole inserted into the graphite bushings 81 and 71 of the first and second support holes 80 and 70 and having a hole 61 formed at the center thereof and intersecting the hole 61 at a right angle; Sphere with 62) ) And a support 60; A hole 51 for penetrating into the hole 61 of the spherical support 60 and being fixed by the tannery bolt 63 assembled to the screw hole 62 of the spherical support 60. Rod body 50 and having; A permanent magnet 52 inserted into and fixed to the bottom of the rod 50; A second support plate (28) assembled to be mounted on the upper end of the tubular body (26) fitted to the upper screw rod (25) while penetrating the upper screw rod (25) of the prop support (24); An AFPM (Axial Flux Permanent Magnet) motor 29 having a rotation shaft 31 penetrating the center of the second support plate 28 and fixed to an upper surface of the second support plate 28 through a bolt; The groove 43 into which the upper end portion of the rod 50 is inserted below the boss 41 inserted into the rotation shaft 31 of the motor 29 of the AFPM method and fixed through the fixing bolt 32 is provided. A rotating bracket 40 having a fan-shaped body 42 formed therein; A charging device and a CPU 8 fixed in the second hermetic chamber 3 of the buoy 1; A battery 7 fixed in the second hermetic chamber 3 of the buoy 1 and connected to the charging device and the CPU 8; The electric power generated by the electric wire 30 and the electric power generation device 22 for supplying the electric power generated by the AFPM motor 29 to the charging device and the CPU 8 is supplied to the charging device and the CPU 8. Marine buoy power generation device characterized in that it comprises a wire (23) for supplying.

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