KR200392818Y1 - Ware activated generator - Google Patents

Abstract

The present invention relates to a wave power generator, and more particularly, a speed generator is installed at an upper end of a pillar in which at least one pillar is vertically installed, and the center of the lever is installed on the shaft of the speed generator and the frame is provided at both ends of the lever. Install each buoy to allow the generator system to float in the water, this generator system is connected to the fixed body and rope fixed to the sea floor, and the buoy by allowing the seawater into and out of the buoy as needed When buoys installed on both ends of the lever are raised and lowered together with the lever as the digging, the axis of the gearbox connected to the center of the lever is developed to generate power. When natural disasters such as typhoons occur, To allow the generator system to sink into the water.

In the present invention, at least one pillar (2) is provided with a speed generator (17) at the upper end of each pillar of the frame 16 is installed vertically, buoys (8) at both ends on the rotary shaft (18) of the speed generator (17). ), The center of the lever 19 is installed, and after fixing the rope 15 to one side of the frame 16, the other end of the rope 15 is fixed to the fixing body 14 fixed to the sea bottom 1 It is characterized in that the fixed coupling.

Description

Wave generators {Ware activated generator}

The present invention relates to a wave power generator, and more particularly, a speed generator is installed at an upper end of a pillar in which at least one pillar is vertically installed, and the center of the lever is installed on the shaft of the speed generator and the frame is provided at both ends of the lever. Install each buoy to allow the generator system to float in the water, this generator system is connected to the fixed body and rope fixed to the sea floor, and the buoy by allowing the seawater into and out of the buoy as needed When buoys installed on both ends of the lever are raised and lowered together with the lever as the digging, the shaft of the gearbox connected to the center of the lever is developed to generate power. To allow the generator system to sink into the water.

The conventional wave generator has been disclosed and disclosed in the Republic of Korea Patent Application No. 1985-525, this conventional design is installed so that the column (2) is vertically installed above the water surface (3) from the sea bottom (1), this column (2 A shaft support 4 is provided at the upper end of the), and the shaft 6 is provided so that the rotary shaft 6 of the buoy device 5 can rotate.

The buoy device portion 5 is provided with a buoy 8 floating on the water at the tip of the rod 7 and inserted into the shaft support 4 at the end thereof so that the buoy device 5 is rotated. And the sector 7 of the fan-shaped sector gear 9 is provided in the rod 7 of the buoy device part 5, and the upper part of the rotating shaft 6. As shown in FIG.

In addition, a generator mounting stand 10 is vertically installed on an upper portion of the rear pillar 2 of the rotary shaft 6, and a generator 11 is installed on an upper portion of the generator mounting stand 10, and a sector of the generator shaft is provided. The gear 12 which meshes with the gear 9 is provided.

The conventional design is such that the buoy (8) of the buoy device portion (5) installed in the pillar (2) is raised and lowered according to the digging in the state floating on the water, as the buoy (8) is moved up and down as the axis of rotation of the rod end 6 is rotated by being supported by the shaft support (4), the gear 12 of the generator 11 is also rotated together with the rotating shaft and the sector gear (9) installed on top of the rod, the rotational force of the sector gear (9) meshed with it. By rotating) to develop.

However, this is because the buoy device portion 5 and the generator 11 is installed on the top of the column (2) vertically installed on the sea bottom (1) there is a limit that must be installed where the water level difference is not severe In deep seas, the length of the pillars (2) should be as long as the water depth, which makes installation difficult.In the case of natural disasters such as typhoons and tsunamis, the exposed parts of the device above the surface have strong typhoons or tsunamis. There was a problem of being damaged by.

In addition, when the wave is not acting only in one constant direction, the direction of the wave changes from time to time, there is a lot of fear that the torsion occurs in the buoy device portion 5, when the torsion occurs in the buoy device portion 5 Another problem is that the rotating shaft inserted into the shaft support part 4 does not operate smoothly, and the sector gear 9 and the gears of the generator do not mesh properly to prevent the generator from rotating.

In order to solve the above problems, the present invention allows the generator system to be floated on the surface by buoys, and the generator system is connected to a fixed body and a rope installed on the bottom of the sea, so that the wave power is strong even at places where the water level is very different or deep. Not only can the generator be easily installed, but it can also generate power regardless of the direction of the waves.In the event of a natural disaster such as a typhoon, the generator system is submerged into the buoy to prevent damage to the generator system. It is a technical problem to avoid.

The present invention for achieving the above object, at least one pillar is installed on the upper end of each pillar of the frame is installed vertically, the central shaft of the lever is installed on both ends of the rotary shaft of the speed generator, After the rope is fixed to one side of the frame, the other end of the rope is characterized in that it is fixedly coupled to the fixture fixed to the sea bottom.

Hereinafter, the wave generator according to the present invention will be described with reference to the accompanying drawings, FIGS. 2 to 7.

As shown in FIGS. 2 to 4, at least one pillar 2 is provided with a speed generator 17 at an upper end of a pillar 16 in which the at least one pillar 2 is vertically installed, and both ends of the speed generator 17 are provided at both ends thereof. The central part of the lever 19 in which the buoy 8 is installed is provided to constitute the generator system 13, and after the rope 15 is fixed to one side of the frame 16, the other end of the rope 15 is located on the sea bottom. It is fixedly coupled to the fixed body 14 fixed to (1).

The buoy 8 should be formed to a size that can generate a buoyancy as long as the generator system 13 floats in the water, the lower wing of the frame 16 to the vertical wing 20 to serve as a rudder of the ship Is installed vertically.

In addition, the buoy 8 and the buoyancy body 23 in the present invention buoy (8) to sink the generator system 13 including the buoyancy body 23 in the water in the event of a large natural disaster such as typhoons or tsunamis You can put the seawater inside and out of the).

That is, as shown in Fig. 5, the upper and lower portions of the buoy 8 are formed with a vent 25 and a water passage 26, respectively, and the vent 25 and the water passage 26 are upper and lower portions for opening and closing them as solenoid valves. Opening and closing ports 27 and 28 are provided, and the compressed air tank 29 having the compressed air opening and closing port 30 is installed inside the buoy 8.

The operation of each of the upper and lower opening and closing openings 27 and 28 and the compressed air tank 29 is controlled by the electric power generated by the speed increasing generator 17 and the signals of a control device (not shown). Detailed description thereof will be omitted.

In addition, as shown in FIG. 4, the speed generator 17 is provided with a diaphragm 39 in the casing 38 to include a gear chamber 40 and a generator chamber 41, and a central portion of the casing 38. The rotary shaft 18 is installed to rotate the primary gear 42, the primary gear 42 is installed in the center of the gear chamber (40).

In addition, a plurality of two-speed gearbox 43 is provided on the outer circumference of the primary gear 42 in the gear chamber 40, and the generator gear 41 meshes with the atmospheric gear of the gearbox 43 in the generator chamber 41. A generator (31) is provided on the side of the gear chamber (40), and a regulator (36) is provided on one side of the generator (31) to stabilize the power generated from the generator, and behind the casing (38). Transmission line 32 for transmitting electricity generated from the generator 31 to the power transmission facility is connected.

In addition, the lever 19 and the rotating shaft 18 is formed in a hollow tube shape, the electric wire 37 is inserted into the inside of the buoy 8 in the inside of the lever 19 and the rotating shaft 18 formed in the hollow tube shape. From the upper and lower openings 27 and 28 and the compressed air opening and closing 30 to the rotary connection terminal 33 installed on the rotary shaft 18, and on the outer circumference of the rotary connection terminal 33 for stable power supply and control of the regulator 36 A slip ring 34 for connecting the electric wire 37 is provided.

6 shows an embodiment of the present invention, which differs from this embodiment in that a large buoyancy body (between the rope 15 connecting between the generator system 13 and the stationary body 14). 23 is installed, and another generator system 13 is connected to the generator system 13 by a rope 15.

In the third embodiment of the present invention shown in FIG. 7, the speed generator 17 is installed on the fixed body 14 installed on the bottom surface 1, and the lever 19 is provided on the rotation shaft 18 of the speed generator 17. The central portion of the installation, the both ends of the lever 19 is connected to the rope 24 is connected to the buoy 8 floating on the water surface.

If described with reference to Figures 2 to 7 the working relationship of the present invention is configured as described above.

First, it will be described from an embodiment of the present invention shown in FIG.

If the wave generator of the present invention according to one embodiment is installed in the sea, the buoy 8 installed on both ends of the lever 19 by the waves as shown in Figures 2 to 4 repeats the operation of climbing the lever Done.

At this time, the buoy 8 installed on both sides of the lever 19 is a hollow ball form so that it can float on the surface, and the frame 16 including the column 2 suspended from the buoy 8 is a buoy (8) The buoy 8 does not sink into the sea due to buoyancy, and the buoy 8 is not buoyed from the water surface by the weight of the frame 16 including the pillar 2 at all times while the lower part is submerged in water. It will float in the water.

This buoy (8), which always floats on the water, continuously rises and falls along the height of the waves. The two side buoys 8 are installed at both ends of the lever 19, and the lever 19 is connected to the rotary shaft 18 of the speed increase generator 17 to rotate the rotary shaft 18 repeatedly. .

When the rotating shaft 18 rotates as described above, the primary gear 42 is provided on the rotating shaft 18 inside the casing 38, and the small gear of the speed increasing gear 43 is formed on the outer circumference of the primary gear 42. As the gear is engaged, the small gear is increased in proportion to the number of teeth of the primary gear 42, and the generator gear 44 installed on the shaft of the generator 31 is engaged with the standby gear of the increased gear 43. Thus, the rotational speed is further increased.

As the generator gear 44 rotates at a speed increased in several times as described above, the generator shaft is also rotated at such a high speed. In the generator 31, electricity is generated by electromotive force of a known rotor and stator. The electricity generated in this way is sent to a power transmission facility through a power transmission line 32 connected to the generator 31.

As described above, when the buoy 8 rises and falls in accordance with the waves, the direction of the waves changes from time to time. The vertical wings 20 such as the rudder of the ship are installed downward in the rear lower side of the frame 16, so that the waves The lever 19 moves up and down while the hinge 19 moves in the direction.

When the present invention is placed on the water of the sea and the power generation system is being sustained by the wave force, a large typhoon or tsunami may be pushed and the generator system 13 may be damaged, as shown in (b) of FIG. 5. As described above, when the upper and lower openings 27 and 28 provided in the buoy 8 are opened, seawater flows into the buoy 8 into the lower channel 26.

At this time, when the seawater 25 is opened in the upper side of the buoy 8, air filled in the inside of the buoy 8 is discharged to the air vent 25 when seawater flows into the water outlet 26, and the seawater is discharged. It flows smoothly.

As the seawater flows into the buoy 8 as described above, the buoy 8 loses buoyancy and sinks the entire generator system 13 including the buoy 8 into the sea to prevent the generator system from typhoons or tidal waves. 13) can minimize the damage.

As above, the generator system 13 including the buoy 8 is submerged in the buoy 8 so that the generator system 13 including the buoy 8 is placed on the water surface after the typhoon passes. In the case of attempting to float, as shown in Fig. 5A, the compressed air tank 29 is opened while the air vent 25 on the upper side of the buoy 8 is closed and the water outlet 26 on the lower side is opened. Allow compressed air to blow out.

When the compressed air is ejected from the buoy 8 filled with water in this way, the compressed air rises to the inner upper part of the buoy 8 and the water contained in the buoy 8 is transferred to the open lower passage 26. As the water in the buoy 8 is discharged to the outside of the buoy in this way, the inside of the buoy 8 floats on the water while the compressed air is filled.

When the buoy 8 rises above the water as described above, a detector (not shown) installed inside the buoy 8 senses this and closes the compressed air tank 29 so that the buoy maintains buoyancy. The generator system 13, including) will be able to continue to generate power by the intended wave power of the present invention in the state floating on the water surface.

The compressed air tank 29, which ejects the compressed air from the inside of the buoy 8 from above, can replenish the compressed air after rising above the water surface, and the replenishment of the compressed air is carried out through the air vent 25 or the water outlet 26. Open air can be replenished in the compressed air tank (29).

In addition, the present invention has been described as the installation of the compressed air tank 29 for ejecting the compressed air, it is found that the compressed air stored in the compressor by using a compressor installed inside the buoy (8).

Supplying power to the upper and lower openings 27 and 28 and the compressed air opening and closing 30 as described above is controlled by the electricity generated by the speed increase generator 17 and a signal of a control device (not shown).

That is, a rotary connecting terminal in which a lever 19 formed in the form of a hollow tube and an electric wire 37 for transmitting power and signals are inserted into the rotary shaft 18, and a terminal portion is provided in a ring shape on the outer circumference of the rotary shaft 18. An electric wire is connected to the inside of the 33, and a known slip ring 34 is installed on the outer circumference of the rotary connecting terminal 33 and the rotary connecting terminal 33 installed on the rotating shaft 18. The slip ring 34 fixed to the outside of the rotary connection terminal 33 is to be in electrical contact, this slip ring 34 is a regulator 36 for supplying the electricity stabilized electricity generated by the generator 31 is stabilized ) And a control device (circuit) (not shown) are connected to operate the upper and lower openings 27 and 28 and the compressed air opening and closing 30 by the power and the control signal.

In this embodiment shown in Figure 6 is a large buoyancy body 23 is provided to provide a large buoyancy in one embodiment in addition, in this case the generator system 13 to sink into the water by the current (조류 流) It is added that the concern can be prevented by the buoyancy body 23 having a large buoyancy.

And, in the case of this embodiment in which the buoyancy body 23 is installed as described above, in the case of a large typhoon or tsunami, the present invention of this embodiment may not go into the sea, in which case the buoyancy body 23 and each buoy water Injecting and removing the buoyancy body 23 and each buoy to provide the buoyancy floating on the water and to remove the buoyancy to achieve the purpose.

The following is a description of the three embodiments shown in FIG. 7, in which case the generator system 13 including the speed generator 17 is submerged entirely in the water, and the buoys 8 are provided at both ends of the lever 19. The connection between the ropes 24 is different from that of the embodiment, and the working relationship thereof is predictable. Therefore, a detailed description of the working relationship is omitted.

As described above, the wave generator of the present invention, while the generator system is floating on the water surface by buoys, the wave generator is connected to a stationary body and a rope installed on the bottom of the sea, so that the wave generator can be used in places where the water level is very different or deep. The generator can be easily installed and has the advantage of generating power regardless of the direction of the waves.In the event of a natural disaster such as a typhoon, the generator system is submerged into the water by injecting seawater into buoys. It is effective to prevent damage.

1 is a view showing a conventional wave generator.

2 is a view showing an embodiment of the present invention.

Figure 3 is a front view of the generator system which is the main part of the present invention.

Figure 4 (a) (b) is a front sectional view and a plan sectional view showing the structure of the generator which is the main part of the present invention.

Figure 5 (a) (b) is a cross-sectional view showing the structure and working state of the buoy which is the main part of the present invention.

Figure 6 is a view showing this embodiment of the present invention.

7 is a view showing a third embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

1: bottom 2: pillar 3: water surface

4 shaft support 5 buoy device 6 rotation axis

7: rod 8: buoy 9: sector gear

10 generator set 11 generator 12 gear

13 generator system 14 fixed body 15 rope

16 frame 17 speed generator 18 rotation axis

19: lever 20: vertical wing 23: buoyancy body

24: rope 25: vent 26: water outlet

27: upper opening and closing opening 28: lower opening and closing opening 29: compressed air tank

30: compressed air opening and closing 31: generator 32: power transmission line

33: rotary connection terminal 34: slip ring 36: regulator

38: casing 39: diaphragm 40: gear chamber

41: generator room 42: primary gear 43: speed increasing gear

44: generator gear

Claims (3)

A speed generator 17 is installed at the upper end of each pillar of the frame 16 in which at least one pillar 2 is installed vertically, and buoys 8 are provided at both ends of the rotation shaft 18 of the speed generator 17. The center portion of the lever 19 is installed, the rope 15 is fixed to one side of the frame 16, the other end of the rope 15 is fixedly coupled to the fixed body 14 fixed to the sea bottom surface (1) Wave generator, characterized in that. According to claim 1, A large buoyancy body 23 is installed on the rope 15 connecting the fixing body 14 and the frame 16, the vertical wing 20 in the lower rear of the frame 16 Wave generator characterized in that the vertical installation. The air passage 25 and the water passage 26 are respectively formed in the upper and lower parts of the buoy 8, and these air passages 25 and the water passage 26 are opened and closed as solenoid valves. The upper and lower opening and closing openings 27 and 28 are installed, and the compressed air tank 29 having the compressed air opening and closing opening 30 is installed inside the buoy 8, The speed generator 17 is provided with a diaphragm 39 in the casing 38 is provided with a gear chamber 40 and the generator chamber 41, the central gear of the casing 38, the primary gear 42 The rotating shaft 18 is installed to be rotated, the primary gear 42 is installed in the center of the gear chamber 40, In the outer circumference of the primary gear 42 in the gear chamber 40, a two-speed gearbox 43 is installed. In the generator chamber 41, a generator gear 44 meshing with the atmospheric gear of the gearbox 43 is geared. The generator 31 is installed on the chamber 40 side, a regulator 36 for stabilizing the power generated from the generator is installed on one side of the generator 31, the generator 31 in the rear of the casing 38 Transmission line 32 for transmitting the generated electricity to the power transmission facility is connected, An electric wire 37 is inserted into the lever 19 and the rotating shaft 18 formed in the hollow tube shape so that the rotating shaft 18 is opened from the upper and lower openings 27 and 28 and the compressed air opening and closing opening 30 in the buoy 8. It is connected to the rotary connection terminal 33 installed in the wave generator, characterized in that the slip ring 34 is installed on the outer periphery of the rotary connection terminal 33 for connecting a stable power supply of the regulator 36 to the wire 37.