KR20150101884A - Self generation device for buoy - Google Patents

Abstract

The present invention relates to a generation device for a marine buoy, which resolves a problem with respect to a complicated structure and operation which are a drawback of Patent Registration No. 10-1251189 (a generation device for a marine buoy) and simultaneously, resolves a problem with respect to efficiency which is a drawback of Patent Application No. 10-2014-0012330 (a generation device for a marine buoy). A metal weight (41) hung in a rod body (40) is rotated along with the rod body (40) by a wave for a first shaft (30) to be rotated. Moreover, a rotational force of the first shaft (30) is transmitted to a transmission through a first bevel gear (31). The rotational force passing through the transmission is transmitted to an AFPM motor (50) to produce electricity.

Description

Self generating device for buoy}

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front view showing a part of the structure of the present invention in a cross-sectional view.

Fig. 2 is a plan view based on Fig. 1; Fig.

3 is a sectional view taken along line A-A of Fig. 1;

Fig. 4 is a partially enlarged view based on Fig. 1; Fig.

5 is a reference view showing an example of a state in which the present invention is installed in a buoyancy state.

6 is a partial enlarged view based on Fig. 5; Fig.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power generating apparatus for a marine buoy.

In the deep sea where it is very difficult to construct a lighthouse, a buoy 1 is mounted for transmitting a position signal while also functioning as a lighthouse so as to secure the safe operation of the ship. The lamp 5 of the buoy 1 and the position signal A minimum amount of power must be continuously supplied to the circuit device for transmitting the power.

In this case, a solar panel is mounted on the buoy 1 and a high-performance battery is mounted on the buoy 1 to fill the battery 91 with the solar power generator. However, due to the typhoon and the waves, There is a decisive disadvantage that the microbes, seaweeds, shellfish, etc. become dysfunctional with time, and when they are raining or clouding for a long time, the function is degraded. However, because there is no special alternative, there are many unreasonable and unreasonable actions such as repairing, cleaning or replacing unstable parts by using a lot of time, manpower, and money to find lots of numbers.

Meanwhile, studies for using the wind power generator as a power supply device for the buoy have been continuing. However, since the wind power generation system is operated only when it receives wind, the propeller, the shaft and the bearing must be exposed from the buoy, Due to severe corrosion phenomenon due to the extremely high failure rate has not been commercialized until now.

In view of the fact that the buoy 1 performs isometric movement in all directions by the force of the waves, the applicant of the present invention is provided with an airtight chamber in the buoy 1, and a power generator is installed in the airtight chamber, The patented device described above is designed to allow a pendulum with a magnet to be swung in all directions and repeat the left turn and the right turn, and the pendulum of the above pendulum The upper end of the rod is connected to the rotor shaft of the AFPM motor so that electricity can be produced.

However, since the above-described patent apparatus has a complicated structure, there is a possibility of failure, and the pendulum movement of the pendulum rod is not smooth and inaccurate, and the rotational force of the pendulum rod is weak. In addition, when the pendulum rod rotates the driven shaft of the AFPM motor, It was found that the production amount of electricity was insufficient.

The present applicant (inventor) invented a power generating device for a marine buoy having improved the above-described disadvantages of Patent Registration No. 1251189 and applied for a patent application No. 10-2014-0012330. However, this is not a type in which the pendulum rod is rotated in all directions, The pendulum movement of the metal weight can not be smoothly performed unless the buoy (1) is anchored accurately in accordance with the direction in which the wave is hit.

Accordingly, the present invention is to solve the problems that have arisen from the above-mentioned Patent Registration No. 1251189 and Patent Application No. 10-2014-0012330.

The present invention for solving the above-mentioned problems comprises the following.

A support plate (10) fixed to the bottom of the first closed chamber (6) of the buoy (1);

A support pipe (11) fixed by a bolt on the support plate (10) and forming a rotating space of the metal weight (41);

An upper plate 12 fixed to the support tube 11 by bolts and having a hole 13 formed at the center thereof;

A bearing housing 20 bolted onto the top plate 12;

A first shaft (30) penetrating the bearing housing (20) and passing through the hole (13) of the upper plate (12) and having a protruding end (33);

A first ball bearing (21) and a second ball bearing (22) assembled inside the bearing housing (20) to smooth the rotation of the first shaft (30);

A thrust bearing 23 assembled between the first ball bearing 21 and the projecting end 33 of the first shaft 30;

A cover (24) bolted to an upper end of the bearing housing (20) and preventing the first shaft (30) from coming off;

A first bevel gear 31 fixed to an upper end of the first shaft 30;

A shifting device for shifting the rotational force of the first bevel gear 31;

An AFPM (Axial Flux Permanent Magnet) motor 50 fixed to the upper surface of the upper plate 12 by bolts and transmitting the rotational force of the transmission to the driven shaft 51 to produce electricity and deliver the electric power to the charging device and the CPU 90;

A damper plate (32) fixed to the lower end of the first shaft (30);

A hook body 40 fixed to the bottom surface of the overlapping plate 32;

A metal weight 41 fitted and fixed to the lower portion of the bar 40;

A charging device and a CPU (90) fixed in the second closed chamber (7) of the buoy (1);

And a battery 91 fixed in the second closed chamber 7 of the buoy 1 and connected to the charging device and the CPU 8.

On the other hand, in the above configuration, the speed shift device is configured as follows.

The upper ends of the support shafts 60 and 60a are fixed by bolts to the upper surfaces of the support shafts 60 and 60a and the support shafts 60 and 60a which are bolted to the upper surface of the upper plate 12, A sound plate 72 for sound recording,

A second shaft 62 fixed by a second bevel gear 61 which is supported by bearings 63 assembled to the supporting shafts 60 and 60a and engaged with the first bevel gear 31,

A first large-diameter gear 64 fixed to the second shaft 62 and rotating under the rotational force of the second bevel gear 61,

A third shaft 65 supported by a bearing 66 assembled to the supporting shafts 60 and 60a,

A first small-diameter gear 67 fixed to the third shaft 65 and engaging with the first large-diameter gear 64 to increase the rotational force and a second large-diameter gear 67 further increasing the rotational force of the first small- 68,

A fourth shaft 69 supported by bearings 70 assembled to the support shafts 60 and 60a and connected to the driven shaft 51 of the AFPM motor 50 through the coupling 52,

And a second small-diameter gear 71 fixed to the fourth shaft 69 for further increasing the rotational force of the second large-diameter gear 68.

The present invention will now be described in detail with reference to the accompanying drawings. The AFPM motor 50 of the present invention and the charging device and the CPU 90, the lamp 5, the lamp operation, And the battery 91 are not shown in the drawings because they are well known in the art.

The AFPM (Axial Flux Permanent Magnet) motor 50 of the present invention is already commercialized. Even if a weak rotational force is applied to the driven shaft 51, the rotor fixed to the driven shaft 51 can rotate very smoothly It reveals the time that the advanced technology that can produce electricity is concentrated.

The present invention has the structure as described above, and when the buoy (1) is moved in four directions by the force of a wave, the rod (40) and the metal weight (41) At the same time, the first bevel gear 31 rotates the second bevel gear 61 at a high speed while the first shaft 30 rotates, so that the AFPM motor 50 can produce electricity.

It is important that the present invention, which is fixed in the first closed chamber 6 of the tower 3 as shown in Figs. 5 and 6, is not affected by seawater or rainwater, 7 is equipped with the above-described charging device, the CPU 90 and the battery 91. It is of course required that doors are provided in the first and second sealing chambers 6 and 7, It should be waterproof.

5, a tower 3 is provided at an upper portion of the float 2 and a first closed chamber 6 and a second closed chamber 7 are provided inside the tower 3 There is enough space to prepare. A metal weight 4 is fixed to the bottom of the float 2 and a lamp 5 is provided at an upper end of the tower 3. [

5 and 6, when the wave is hit, the buoy 1 swings in all directions. At this time, the hook 40 fixed to the bottom surface of the dam plate 32 fixed to the lower end of the first shaft 30, The metal weights 41 hanging on the metal foil 41 are heavy, so that it is natural that the metal foil 41 rotates in a tilting direction. Meanwhile, since the rod 40 described above is fixed to the damper plate 32 while being inclined as shown in the figure, the buoy 1 is more easily inclined in a tilting direction, It is preferable that the angle of inclination is about 45 degrees, and if the angle of inclination of the bar 40 is 45 degrees or less, the rotation motion is not smooth.

When the metal weight 41 rotates in this manner, the bar 40 rotates in the same direction. Accordingly, the first shaft 30 naturally rotates in the direction in which the metal weight 41 rotates, The first bevel gear 31 fixed to the upper end of the first shaft 30 also rotates.

The second bevel gear 61 of the transmission unit engaged with the first bevel gear 31 also rotates. The second bevel gear 61 rotates the first large-diameter gear 64 and rotates the first large- 64 rotates the first small diameter gear 67 again and the rotational force of the first small diameter gear 67 is increased through the second large diameter gear 68 so that the second small diameter gear 71 rotates The rotational force is further increased and finally the driven shaft 51 of the AFPM motor 50 is rotated at a high speed.

Since the metal weight 41 rotates as described above in accordance with the direction in which the buoy 1 is shaken, the metal weight 41 is subjected to forward rotation or reverse rotation so that the driven shaft 41 of the AFPM motor 50 The first bevel gear 31 rotates the second bevel gear 61 so that the first bevel gear 31 rotates the second bevel gear 61. In this case, So that the number of gears can be increased as the case may be.

Since the first shaft 30 can rotate very smoothly, it is preferable to use the first ball bearing 21 and the second ball bearing 22, that is, at least two ball bearings, 30 are fixed to the lower end of the roof 30 and the hook 40 is fixed to the bottom of the roof 32 and the metal weight 41 is hanging on the hook 40. Therefore, It is preferable to provide the protruding end 33 on the first shaft 30 and to add the thrust bearing 23 so as to securely and smoothly perform the rotational movement of the first shaft 30 under a large load, (23) may be omitted.

The hook 40 may be welded to the bottom surface of the first shaft 30 by welding, but the hook 40 may be welded to the end of the overlapping plate 32 as in the present invention, It is preferable that the upper end portion (the portion fixed by welding with the dam plate) of the hook body 40 is located as far as possible from the center of the first shaft 30, And the diameter of the support tube 11 is also limited. Therefore, the size of the overlapping plate 32 can not be increased significantly.

It is a matter of course that the first bevel gear 31 and the second bevel gear 61 may use other types of gears in the present invention.

The present invention as described above can achieve a smooth rotation of the metal weight even when the buoy is shaken in a certain direction as compared with the patent application No. 10-2014-0012330. The structure of the present invention is simple compared with the patent No. 1251189, And there is almost no possibility of occurrence of failure.

Claims (2)

A support plate (10) fixed to the bottom of the first closed chamber (6) of the buoy (1); A support pipe (11) fixed by a bolt on the support plate (10) and forming a rotating space of the metal weight (41); An upper plate 12 fixed to the support tube 11 by bolts and having a hole 13 formed at the center thereof; A bearing housing 20 bolted onto the top plate 12; A first shaft (30) penetrating the bearing housing (20) and passing through the hole (13) of the upper plate (12) and having a protruding end (33); A first ball bearing (21) and a second ball bearing (22) assembled inside the bearing housing (20) to smooth the rotation of the first shaft (30); A thrust bearing 23 assembled between the first ball bearing 21 and the projecting end 33 of the first shaft 30; A cover (24) bolted to an upper end of the bearing housing (20) and preventing the first shaft (30) from coming off; A first bevel gear 31 fixed to an upper end of the first shaft 30; A shifting device for shifting the rotational force of the first bevel gear 31; An AFPM (Axial Flux Permanent Magnet) motor 50 fixed to the upper surface of the upper plate 12 by bolts and transmitting the rotational force of the transmission to the driven shaft 51 to produce electricity and deliver the electric power to the charging device and the CPU 90; A damper plate (32) fixed to the lower end of the first shaft (30); A hook body 40 fixed to the bottom surface of the overlapping plate 32; A metal weight 41 fitted and fixed to the lower portion of the bar 40; A charging device and a CPU (90) fixed in the second closed chamber (7) of the buoy (1); And a battery (91) fixed in the second closed chamber (7) of the buoy (1) and connected to the charging device and the CPU (8). The transmission according to claim 1, wherein the transmission includes: The upper ends of the support shafts 60 and 60a are fixed by bolts to the upper surfaces of the support shafts 60 and 60a and the support shafts 60 and 60a which are bolted to the upper surface of the upper plate 12, A joint plate 72, A second shaft 62 fixed by a second bevel gear 61 which is supported by bearings 63 assembled to the supporting shafts 60 and 60a and engaged with the first bevel gear 31, A first large-diameter gear 64 fixed to the second shaft 62 and rotating under the rotational force of the second bevel gear 61, A third shaft 65 supported by a bearing 66 assembled to the supporting shafts 60 and 60a, A first small-diameter gear 67 fixed to the third shaft 65 and engaging with the first large-diameter gear 64 to increase the rotational force and a second large-diameter gear 67 further increasing the rotational force of the first small- 68, A fourth shaft 69 supported by bearings 70 assembled to the support shafts 60 and 60a and connected to the driven shaft 51 of the AFPM motor 50 through the coupling 52, And a second small-diameter gear (71) fixed to the fourth shaft (69) for further increasing the rotational force of the second large-diameter gear (68).

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