JPH1018957A - Wave-activated power generator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wave-activated power generator for generating power by converting the vertical movement of waves into rotational movement. SOLUTION: A strut 3 is installed and an internal gear 1 is provided as to draw an arc with a supporting point 2 as its center, which are fixed on a framework adapted to be fixed on the seabed. A mount 4 is disposed as employing the supporting point 2 as its pivot, on which are mounted an input gear 6 meshing with the internal gear 1, a special clutch for axially transferring the rotation of the input gear 6, an electric circuit for engaging or disengaging the clutch, a spiral spring, a spiral housing enclosing the spiral spring, switches outside these members, a gear wheel 7 interlocked with the input gear 6, a reverse-rotation prevention device, and a gear for increasing the rotation such as a pinion 9 meshing with the gear wheel 7. This gear train rotates a generator 10. Bearing supports 11 are provided on both sides of the input gear 6, outside the reverse-rotation prevention device, and important positions of the respective gears. A float 5 is provided under the mount 4.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention utilizes a force that pushes up a floating body by vertical movement of the sea surface to effectively extract wave energy, rotates a gear, simultaneously winds a mainspring, and pulls out the returning force evenly. The present invention relates to a wave power generator that generates power by increasing rotation.

[0002]

2. Description of the Related Art There is a method in which a vertical pipe is provided on a buoy to compress air in the pipe by vertical movement of the sea surface and turn a turbine to generate power, but the energy of waves is not effectively utilized.

[0003]

[Problems to be solved by the invention]

 B) To change the vertical movement of the sea surface into rotational movement b) To always rotate the generator at an average speed c) To make the most of the energy of the waves d) To be able to always generate power even at low tide and high tide e) Being able to respond to the size of waves

[0004]

[Means for Solving the Problems]

A. The internal gear (1) that draws a circle centered on the fulcrum (2) with the support (3) upright is fixed to the seabed by a frame and fixed. The input gear (6) internal gear is meshed and moved up and down with the base (4) as a fulcrum (2). A floating body (5) is provided under the platform (4). Also, instead of the input gear (6) and the internal gear (1), a pulley is used to fix the center of the rope to the pulley (45), wrap it around left and right, and the rope (44) is fixed to the upper and lower arms and then moved up and down. Turn clockwise and counterclockwise. (B) The mainspring (27) is wound around the mainspring (42), the mainspring spring (13) is rotated, the energy of the wave is accumulated, and the gear is rotated at an average speed. (C) The floating body (5) is pushed up by the force of the wave, and the mainspring (27) is wound by the force. D. Enlarge the internal gear (1) and rotate the input gear (6) at any position. E. Apply a one-way valve pipe (31) using a rotary pump (30), connect it to the inlet and outlet, and provide a one-way valve (28). Connect another clutch pipe in the same way. Also, install an electromagnetic valve (29) near the center. Provide.
Oil is put into the pump and the pipe. This is a clutch (12) which transmits rotation in one direction by a one-way valve, and idles in the opposite direction. When the electromagnetic valve (29) is opened, it runs idle in both directions. An inversion prevention device (14) is provided so that the wound mainspring spring (27) does not return to its original position.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION A floating body (5) attached to a table (4)
Move up and down with waves. At this time, the input gear (6) is rotated by the internal gear (1), and constant energy is stored in the spring (27) via the clutch (12). To rotate the generator to generate electricity. It also generates electricity at low and high tides.

[0006]

【Example】

A. The internal gear (1) that draws an arc centered on the fulcrum (2) with the support (3) upright is fixed by a frame, and a base is provided with the fulcrum as an axis. Put a bottom plate on the table. (B) A bearing support (11) is provided on the base in the axial direction, then an input gear (6) meshing with the internal gear is provided, then the bearing support (11) is provided, and a special clutch (12) is provided. .
Next, metal cylinders (16, 17, 18) are attached to the shaft.
An insulator is provided between these front and rear and the shaft. Each brush (20, 21, 22, 23) in contact therewith sets up a power input brush support (41) for supporting a part of the brush, and then a mainspring winding shaft (42) is provided, and then a mainspring (27) is mounted. Provided and then a spring house (13) surrounding it, provided with a switch. Switch input arm (3
7) and the switch output arm (38) are attached to the mainspring house (13), and then the large gear (7) interlocked with this.
Are provided, and then a reversing prevention device (14) is provided, and then a bearing support is provided. And a small gear (9) meshing with a large gear, a bearing post (11), and a middle gear (8) meshing with a small gear, then a bearing post (11), and then a gear of a generator (10) meshing with a middle gear. Is provided. And a generator linked to this is provided. C. A floating body (5) is provided under the platform (4). D. Spring lead (27) with switch lead ring (3)
9) Attach the switch from the hole of the spring house (13) and turn on and off the switch (43). E. Apply a rotary pump (30), connect a one-way valve pipe (31) to the inlet and outlet, provide a one-way valve (28), provide another clutch pipe (24), and provide an electromagnetic valve ( 29) is provided. F. A cover is provided to cover a portion of the stand other than the input gear. G. A pulley is used in place of the input gear (6), a rope (44) is used in place of the internal gear, and the rope is fixed to the pulley (45) and wound around the left and right.
There is also a method in which the pulley turns clockwise and counterclockwise when the table is moved up and down. The present invention has the above configuration. When the present invention is used, power is generated in the following manner only by sticking to the seabed. In the sea, the sea surface constantly moves up and down.
Therefore, the floating body (5) below the platform (4) always moves up and down. At this time, the input gear (6) is rotated by the internal gear (1), constant energy is stored in the spring (27) via the clutch (12), and the power is increased by the gear to generate power. When the mainspring of the clutch (12) for preventing overwinding is wound up to a certain degree, the switch lead ring (39) pulls the switch lever and the switch (43) is turned on. Then, current flows from the power input brush (21) through the metal tube (17), through the switch input brush f (22) to the switch (43), and to the switch output brush g (2).
From 3) to the metal tube (18), the wire in the insulator is transferred to the coil (30). Then, it flows from the coil to the power input brush d (20) from the metal tube (16). Then, the electromagnetic valve is opened, the clutch idles, and the mainspring is prevented from being overwound.

[0007]

The floating body mounted under the table is moved up and down by waves. At this time, the input gear (6) is rotated by the internal gear (1), constant energy is stored in the spring (27) via the clutch (12), and even when the wave is large, the wound mainspring is rotated averagely. Increased the number of revolutions to generate electricity.

[Brief description of the drawings]

FIG. 1 is a side view of the present invention.

FIG. 2 is a front view of the present invention.

FIG. 3 is a front view of the power generator.

FIG. 4 is a plan view of a power generator.

FIG. 5 is a side view of the power generator.

FIG. 6 is a sectional view taken along a line DD.

FIG. 7 is a sectional view taken along line AA.

FIG. 8 is a sectional view taken along line BB of FIG.

FIG. 9 is an EE cross-sectional view and a relational diagram.

FIG. 10 is a perspective view of a wave power generator rope and a pulley.

FIG. 11 is a perspective view of a wave power generator.

[Description of Signs] 1, internal gear 2, fulcrum 3, support 4, support 5, floating body 6, input gear 7, large gear 8, middle gear 9, small gear 10, generator 11, bearing support 12, clutch 13, Spring house 14, reversing prevention device 15, clutch gear 16, metal tube a17, metal tube b18, metal tube c19, solenoid valve 20, power input brush d21, power input brush e22, switch input brush f 23, switch output brush g 24, clutch pipe 25, reverse prevention gear 26, generator gear 27, spring 28, one-way valve 29, electromagnetic valve 30, coil 31, one-way valve 32, shaft 33, casing 34 , Rotor valley 35, rotor ridge 36, pipe 37, switch input arm 38, switch output arm 39, switch lead ring 4 0, reversing prevention device fixed column 41, power input brush column 42, mainspring winding shaft 43, switch 44, rope 45, pulley 46, cover 47, rope spring 48, generator column 49, oil

Claims (1)

[Claims] 1. An internal gear (1) that draws an arc centered on a fulcrum (2) by fixing a fulcrum (3), is fixed by a frame, and a base is provided with the fulcrum as an axis. Is provided, and then an input gear (6) meshing with the internal gear is provided.
1) is provided, then a special clutch (12) is provided, and then metal cylinders (16, 17, 18) are mounted on the shaft, and an insulator is provided between these front and rear and the shaft. Each of the brushes (20, 21, 22, 23) in contact therewith is provided with a power input brush support (41) supporting a part thereof. Next, the mainspring shaft (4
2), and then a mainspring spring (27), and then a mainspring house (13) surrounding the mainspring and a switch provided thereon, and a switch input arm (37) and a switch output arm (38) are connected to the mainspring house (13). 13) Attach.
Next, a large gear is provided in conjunction with this, and then the reverse prevention device (1
4) is provided, and then a bearing support is provided. Then, a small gear (9) meshing with the large gear (7) is provided, then a bearing post (11) is provided, and a middle gear (8) interlocked with the small gear.
And a bearing post (11), and then a generator (10) gear that meshes with the middle gear. Then, the generator is rotated. Then, a floating body (5) is provided under the table. A wave power generator having the above configuration.