WO2022235041A1

WO2022235041A1 - New and renewable energy generation system

Info

Publication number: WO2022235041A1
Application number: PCT/KR2022/006293
Authority: WO
Inventors: 손근호
Original assignee: 손근호
Priority date: 2021-05-04
Filing date: 2022-05-03
Publication date: 2022-11-10
Also published as: KR20220077112A

Abstract

Wave power, tidal power, and wind power generation systems which do not have a bearing and a gear device using a plate are new and renewable energy generation systems having a simple structure and excellent efficiency.

Description

Renewable energy generation system

The present invention is a renewable energy power generation system that produces electricity using tidal power, wave power, and wind power.

It is a simple and highly efficient tidal power, wave power and wind power generation system without gear devices and bearings, rather than the existing efficiency and economical tidal power, wave power, and wind power generation systems.

Using tidal power, wave power, and wind power, we want to make a simple structure and economical gear device and a tidal power, wave power, and wind power generation system without bearings.

It is a system that uses a plate to generate electricity without gears and bearings using tidal power, wave power, and wind power.

It has a simple structure and can be used anywhere using wave power, tidal power, or wind power, so it is highly efficient and economical.

Figure 1 to which the technology of the present invention is applied is a drawing of a wave power and wind power generation system that does not require a watertight device using plates and posts, Figure 2 is a drawing of a wave power and wind power plate, Figure 3 is a drawing of a piezoelectric (paelectric) element, and Figure 4 is an upper pillar. A drawing of producing electricity using the pressure of the piezoelectric (paelectric) element and the force transmitting part installed in the 6 is a drawing of a tidal power and wind power generation system that does not require a watertight device using plates and posts, FIG. 7 is a drawing of a current and wind power plate, FIG. 8 is a drawing of a piezoelectric (paelectric) element, and FIG. A drawing of producing electricity using a (paelectric) element and the pressure of a force transmitting part, Figure 10 is a drawing of producing electricity using a piezoelectric (paelectric) element installed on the upper part of the lower column and the pressure of the lower part of the force transmitting part, Figure 11 is A diagram of a wave power generation system using a plate and a pillar, FIG. 12 is a diagram of a piezoelectric element, FIG. 13 is a diagram of generating electricity using the pressure of a piezoelectric element installed on an upper column and a force transmission unit, and FIG. 14 is a diagram of the lower part A drawing of generating electricity by using the piezoelectric (paelectric) element installed on the upper part of the column and the pressure below the force transmitting part, Figure 15 is a drawing of a tidal power generation system using a plate and a column, Figure 16 is a drawing of a piezoelectric (paelectric) element, a drawing 17 is a diagram of generating electricity using the pressure of the piezoelectric (paelectric) element installed on the upper column and the force transmitting part, and FIG. 18 is the piezoelectric (paelectric) element installed on the upper part of the lower column and the pressure of the lower part of the force transmitting part. Production drawings, Figure 19 is a diagram of a wave power generation system that does not require a watertight device using plates and columns, Figure 20 is a diagram of a piezoelectric element, Figure 21 is a diagram of a piezoelectric element and a force transmission unit installed on the upper column. Figure 22 is a drawing of generating electricity using a piezoelectric element installed on the upper part of the lower column and the pressure of the lower part of the force transmission unit, Figure 23 is a view of producing electricity using a plate and a column without the need for a watertight device tidal power generation system drawing , Figure 24 is a diagram of a piezoelectric (paelectric) element, Figure 25 is a diagram of generating electricity using the pressure of a piezoelectric (paelectric) element installed on an upper column and a force transmitting unit, and Figure 26 is a piezoelectric (paelectric) element installed on an upper end of a lower column and a diagram of generating electricity using the pressure of the lower part of the force transmission unit, FIG. 27 is a diagram of a wind power generation system with a plate and a pole, FIG. 28 is a diagram of a piezoelectric (paelectric) element, and FIG. and the pressure of the force transmitting unit to produce electricity, Fig. 30 is a view of producing electricity using the pressure of the piezoelectric (piezoelectric) element installed on the upper part of the lower column and the pressure of the lower part of the force transmitting unit, Fig. 31 is a box and vibration power plant A drawing of a power generation system using a ruler, Figure 32 is a drawing of a vibration generator and a vibration amplifier installed in a box, Figure 33 is a drawing of a power generation system using a box and a vibration generator, and Figure 34 is a drawing of a vibration generator and a vibration amplifier installed in a box One drawing, Fig. 35 is a diagram of electricity generation using shock and vibration, Fig. 36 is a diagram of electricity generation using shock and vibration, Fig. 37 is a diagram of electricity generation through compression, friction and wave, and Fig. 38 is a diagram of electricity generation through compression, friction and wave. Electric power generation drawing, Figure 39 is a tidal power generation system drawing using a floating body and a plank, Figure 40 is a tidal power generation system drawing using a floating body and a plank, Figure 41 is a compression element installed on a column, a vibration generator and a friction generator drawing, Figure 42 is a view of generating electricity using a pole and a connection part.

1. In a wave power and wind power generation system that does not have a gear device using a plate and a bearing and does not require a watertight device,

In Figures 1, 2, 3, 4, and 5, two double pillars 23 are erected in the sea where waves strike, and the double pillar 23 is a lower pillar 24 and a lower pillar 24 fixed to the ground. ) is installed on the upper end and is composed of a combined upper column (25), and the lower column (24) is made larger in diameter than the upper column (25).

The diameter of the upper pillar 25 is made smaller than the diameter of the force transmitting unit 22 so that the force transmitting unit 22 can be easily inserted, and the diameter of the lower pillar 24 is larger than the diameter of the force transmitting unit 22. Make sure that the force transmitting part 22 does not fall down.

The plate 40 is made of a single piece of a lower plate 21 receiving a wave force 26 and an upper plate 28 receiving a wind force 39 . The plate 40 is called a lower plate 21 and an upper plate 28, but is composed of only one plate. Although it is composed of one plate 40, partially divided, the lower plate 21 receiving the wave force 26 is below the water surface, and the upper plate 28 receiving the wind force 39 is above the water surface.

That is, with only one plate 40 , electricity can be produced using the wave power 26 and the wind power 39 .

The plate 40 using the wave force 26 is installed between the two-stage pillars 23, the force transmission parts 22 are coupled to both ends of the plate 40, and the force transmission parts 22 are attached to each of the upper pillars 25. insert That is, if the plate 40 and the force transmission unit 22 are integrated and the force transmission unit 22 is installed around the upper pillar 25 at the upper end of the double pillar 23, it is inserted from top to bottom as it is assembled. Easy to install. Both ends of the plate 40 are coupled to the force transmitting unit 22, and strictly speaking, both ends of the upper plate 28 receiving the wind power 39 are coupled to the force transmitting unit 22.

A piezoelectric element 27 is installed around the upper column 25 , and a piezoelectric element 27 is also installed at the upper end of the lower column 24 . Electricity generated by each piezoelectric element 27 is supplied through an electric wire 29 .

The wave force 26 transmits the force to the lower plate 21 , the lower plate 21 transmits the wave force 26 to the force transfer unit 22 , and the force transfer unit 22 transmits the wave force 26 to the

pressures

33 , 35 . ) transmits the wave force 26 to the piezoelectric element 27 in the form of. Electricity is produced when the piezoelectric element 27 is pressed with

pressures

33 and 35 .

The wind power 39 transmits a force to the upper plate 28 , the upper plate 28 transmits the wind force 39 to the force transmitting unit 22 , and the force transmitting unit 22 transmits the wind power 39 to the pressure 33 . , 35) transmits the wind power 39 to the piezoelectric element 27 in the form of. Electricity is produced when the piezoelectric element 27 is pressed with

pressures

33 and 35 .

As a result, the wave power 26 and the wind power 39 transmit the force to the plate 40 , and the plate 40 transmits the wave force 26 and the wind power 39 to the force transmission unit 22 , and the force transmission unit 22 . ) transmits the wave power 26 and the wind power 39 to the piezoelectric element 27 in the form of

pressures

33 and 35 for the wave power 26 and the wind power 39 . Electricity is produced when the piezoelectric element 27 is pressed with

pressures

33 and 35 .

Since the wave force 26 and the wind force 39 not only flow back and forth but also move slightly up and down, the plate 40 and the force transmitter 22 not only vibrate back and forth, but also move up and down. Eventually, the force transmitting unit 22 receives the wave power 26 and the wind power 39 up and down, left and right, and the force transmitting unit 22 moves the wave power 26 and the wind power 39 back and forth with the pressure 33 and up and down. The moving pressure 35 is transmitted to the piezoelectric element 27 . The piezoelectric element 27 generates electricity by repeatedly using the

pressures

33 and 35 pressed by the wave force 26 and the wind power 39 and the repulsive forces 34 and 36 of the spring 31 .

The piezoelectric element 27 installed around the upper column 25 produces electricity using the pressure 33 and the repulsive force 34 that move back and forth transmitted from the force transmitting unit 22, and installed at the upper end of the lower column 24. The piezoelectric element 27 generates electricity by using the vertical movement pressure 35 and the repulsive force 36 transmitted to the lower end of the force transmission unit 22 .

That is, since the plate 40 obstructs the flow of the wave power 26 and the wind power 39 , the wave power 26 and the wind power 39 strike the plate 40 as it is. The plate 40 absorbs the wave power 26 and the wind power 39 and is transmitted to the force transmission unit 22 integrally coupled with the plate 40, and the wave power 26 and the wind force ( 39) is changed into

pressures

33 and 35 and is transmitted to the piezoelectric element 27 installed on the double column 23 to produce electricity.

The piezoelectric element 27 is provided with a spring 31 and has a repulsive force. Of course, the various types of piezoelectric elements are slightly different, but they are elastic and have a repulsive force to resist pressure, thereby producing electricity. That is, electricity is produced by using the pressure and repulsive force 32 of the force transmission unit 22 and the piezoelectric element 27 .

And, when the piezoelectric element 27 is used, the force transmission unit 22, the upper column 25, and the lower column 24 prevent each other from collided with each other, thereby serving as a cushion to protect the facility.

In addition, when using soft carbon fiber or special cloth as the material of the plate 40, a rope 30 is connected between the lower plate 21 and the lower column 24 to apply the wave force 26 to the force transmission unit 22. It could be conveyed better. Of course, it is also possible to use the plate 40 made of different materials if necessary.

2. In a tidal power and wind power generation system without a gear device using a plate, a bearing, and a watertight device,

In Figures 6, 7, 8, 9 and 10, two double pillars 423 are erected in the sea where the current flows, and the double pillar 423 is a lower pillar 424 and a lower pillar 424 fixed to the ground. ) is composed of an upper column 425 coupled to the upper column, and the lower column 424 has a larger diameter than the upper column 425 .

The diameter of the upper pillar 425 is made smaller than the diameter of the force transmission unit 422 so that the force transmission unit 422 can be easily fitted, and the diameter of the lower pillar 424 is larger than the diameter of the force transmission unit 422. Make sure that the force transmission unit 422 does not fall down.

The plate 440 is made of a single lower plate 421 receiving the tidal force 426 and the upper plate 428 receiving the wind force 439 . Although the plate 440 is called a lower plate 421 and an upper plate 428, it is composed of only one plate. Although composed of a single plate 440 , partially divided, the lower plate 421 receiving the tidal force 426 is below the water surface, and the upper plate 428 receiving the wind force 439 is above the water surface.

That is, electricity can be produced using only one plate 440 using the tidal force 426 and the wind power 439 .

A plate 440 using a tidal force 426 is installed between the two-stage pillars 423, and the force transmission units 422 are coupled to both ends of the plate 440, and the force transmission units 422 are applied to each of the upper pillars 425. put it on That is, when the plate 440 and the force transmission unit 422 are integrated to install the force transmission unit 422 around the upper pillar 425 at the upper end of the double pillar 423, as it is assembled from top to bottom. Easy to install. Both ends of the plate 440 are coupled to the force transmission unit 422 , and strictly speaking, both ends of the upper plate 428 receiving the wind power 439 are coupled to the force transmission unit 422 .

A piezoelectric element 427 is installed around the upper column 425 , and a piezoelectric element 427 is also installed at the upper end of the lower column 424 . Electricity generated by each piezoelectric element 427 is supplied through an electric wire 429 .

The tidal force 426 transmits the force to the lower plate 421, the lower plate 421 transmits the tidal force 426 to the force transfer unit 422, and the force transfer unit 422 applies the tidal force 426 to the pressure ( The tidal force 426 is transmitted to the piezoelectric element 427 in the form of 433 and 435 . When the piezoelectric element 427 is pressed with

pressure

433 and 435, electricity is produced.

The wind power 439 transmits a force to the upper plate 428 , the upper plate 428 transmits the wind power 439 to the force transmission unit 422 , and the force transmission unit 422 applies the wind force 439 to the pressure 433 . , transmits the wind power 439 to the piezoelectric element 427 in the form of 435). When the piezoelectric element 427 is pressed with

pressure

433 and 435, electricity is produced.

As a result, the tidal force 426 and the wind force 439 transmit the force to the plate 440 and the plate 440 transmits the tidal force 426 and the wind force 439 to the force transfer unit 422 , and the force transfer unit 422 transmits the tidal force 426 and the wind force 439 to the piezoelectric element 427 in the form of

pressures

433 and 435 for the tidal force 426 and the wind force 439 . When the piezoelectric element 427 is pressed with

pressure

433 and 435, electricity is produced.

Since the tidal force 426 and the wind force 439 not only flow back and forth, but also move slightly up and down, the plate 440 and the force transmitter 422 not only vibrate back and forth, but also move up and down. Eventually, the force transmitting unit 422 receives the current 426 and the wind power 439 up, down, left and right, and the force transmitting unit 422 moves the current 426 and the wind power 439 back and forth with a pressure 433 and It transfers the pressure 435 moving up and down to the piezoelectric element 427 . The piezoelectric element 427 generates electricity by repeatedly using the

pressures

433 and 435 pressed by the tidal force 426 and the wind force 439 and the

repulsive forces

434 and 436 of the spring 431 .

The piezoelectric element 427 installed around the upper column 425 produces electricity using the pressure 433 and the repulsive force 434 that move back and forth transmitted from the force transmission unit 422, and is installed at the upper end of the lower column 424. The piezoelectric element 427 generates electricity by using the vertical moving pressure 435 and the repulsive force 436 transmitted to the lower end of the force transmitting unit 422 .

That is, since the plate 440 obstructs the flow of the tidal force 426 and the wind power 439 , the tidal force 426 and the wind force 439 strike the plate 440 as it is. The plate 440 absorbs the tidal force 426 and the wind power 439 and is transmitted to the force transfer unit 422 integrally coupled to the plate 440, and the tidal force 426 and the force transfer unit 422 in the force transfer unit 422. The wind power 439 is changed to the

pressures

433 and 435 and is transmitted to the piezoelectric element 427 installed on the double column 423 to produce electricity.

The piezoelectric element 427 is provided with a spring 431 and has a repulsive force. Of course, the various types of piezoelectric elements are slightly different, but they are elastic and have a repulsive force to resist pressure, thereby producing electricity. That is, electricity is produced by using the pressure and repulsive force 432 of the force transmission unit 422 and the piezoelectric element 427 .

And, when the piezoelectric element 427 is used, the force transmission unit 422, the upper column 425, and the lower column 424 prevent each other from collided with each other, thereby serving as a cushion to protect the facility.

In addition, when the material of the plate 440 is soft carbon fiber or special cloth, it is connected between the lower plate 421 and the lower column 424 with a rope 430 to transmit the tidal force 426 to the force transmission unit 422 . may be better communicated to Of course, it is also possible to use the plate 440 made of various other materials if necessary.

3. In a wave power generation system without a gear device and a bearing using a plate,

In Figures 11 and 12, and Figures 13 and 14, two double pillars (3) are erected in the sea where the wave force (6) strikes back and forth. 4) It is composed of an upper pole (5) that is installed and coupled to the upper part, and the lower pole (4) has a larger diameter than the upper pole (5).

The diameter of the upper pillar 5 is smaller than the diameter of the force transmitting unit 2 so that the force transmitting unit 2 can be easily inserted, and the diameter of the lower pillar 4 is larger than the diameter of the force transmitting unit 2 Make sure that the force transmitting part (2) does not fall down.

The plate 1 using the wave force 6 is installed between the two-stage columns 3, the force transmission parts 2 are coupled to both ends of the plate 1, and the force transmission parts 2 are attached to each upper column 5. insert That is, if the plate (1) and the force transmission unit (2) are integrated and the force transmission unit (2) is installed around the upper pillar (5) at the upper end of the two-stage pillar (3). Easy to install.

A piezoelectric element 7 is installed around the upper column 5, and a piezoelectric element 7 is installed at the upper end of the lower column 4 as well. Electricity produced by each piezoelectric element 7 is supplied through an electric wire 9 .

The wave force 6 transmits a force to the plate 1, the plate 1 transmits a wave force 6 to the force transmitting unit 2, and the force transmitting unit 2 transmits the wave force 6 to the pressure 13, 15 ) transmits the wave force 6 to the piezoelectric element 7 in the form of. When the piezoelectric element 7 is pressed with

pressure

13, 15, electricity is produced.

Since the wave force 6 not only flows back and forth, but also moves slightly up and down, the plate 1 and the force transmitting part 2 not only vibrate back and forth, but also move up and down. Eventually, the force transmitting unit 2 receives the wave force 6 up, down, left and right, and the force transmitting unit 2 applies the pressure 13 that moves the wave force 6 back and forth and the pressure 15 that moves up and down to the piezoelectric element 7 ) is transmitted to The piezoelectric element 7 generates electricity by repeatedly using the

pressing pressures

13 and 15 of the wave force 6 and the repulsive forces 14 and 16 of the spring 11 .

As a result, the piezoelectric element 7 installed around the upper column 5 produces electricity using the pressure 13 and the repulsive force 14 that move back and forth transmitted from the force transmission unit 2, and the upper end of the lower column 4 The piezoelectric element 7 installed on the pole generates electricity by using the up-and-down pressure 15 and the repulsive force 16 transmitted to the lower end of the force transmission unit 2 .

That is, since the plate 1 interferes with the power of the wave, the wave force 6 hits the plate 1 as it is. The plate 1 absorbs the wave force 6 and is transmitted to the force transmission unit 2 integrally coupled to the plate 1, and the wave force 6 in the force transmission unit 2 is converted into

pressures

13 and 15. The change is transmitted to the piezoelectric element 7 installed on the double column 3 , and the piezoelectric element generates electricity using the

pressures

13 and 15 .

The piezoelectric element 7 is provided with a spring 11 and has a repulsive force. Of course, the various types of piezoelectric elements are slightly different, but they have elasticity and thus have a repulsive force to resist pressure, so that electricity is produced by repeating the pressure and the repulsive force (12). As a result, the piezoelectric element 7 uses the wave force transmitted from the force transmission unit to produce electricity.

And, when the piezoelectric element 7 is used, the force transmission unit 2, the upper column 5, and the lower column 4 prevent each other from collided with each other and serve as a cushion to protect the facility.

4. In a tidal power generation system without a gear device and a bearing using a plate,

15, 16, 17 and 18, two double pillars 503 are erected in the sea through which the tidal force 506 flows, and the double pillars 503 are the lower pillar 504 and the lower pillar ( 504) is composed of an upper pillar 505 coupled by installing at the top, the lower pillar 504 is made larger in diameter than the upper pillar 505.

The diameter of the upper pillar 505 is smaller than the diameter of the force transmission unit 502 so that the force transmission unit 502 can be easily fitted, and the diameter of the lower pillar 504 is larger than the diameter of the force transmission unit 502. Make sure that the force transmitting part 502 does not fall down.

A plate 501 using a tidal force 506 is installed between the two-stage pillars 503, and the force transmission units 502 are coupled to both ends of the plate 501, and the force transmission units 502 are applied to each of the upper pillars 505. put it on That is, when the plate 501 and the force transmission unit 502 are integrated and the force transmission unit 502 is installed around the upper pillar 505 at the upper end of the double pillar 503, it is inserted from the top down as it is assembled. Easy to install.

A piezoelectric element 507 is installed around the upper column 505 , and a piezoelectric element 507 is also installed at the upper end of the lower column 504 . Electricity produced by each piezoelectric element 507 is supplied through an electric wire 509 .

The tidal force 506 transmits the force to the plate 501, the plate 501 transmits the tidal force 506 to the force transfer unit 502, and the force transfer unit 502 applies the tidal force 506 to the pressure ( Transmits the tidal force 506 to the piezoelectric element 507 in the form of 513, 515. When the piezoelectric element 507 is pressed with the

pressures

513 and 515, electricity is produced.

Since the tidal force 506 not only flows back and forth, but also slightly moves up and down, the plate 501 and the force transmitter 502 not only swing back and forth, but also move up and down. As a result, the force transmitting unit 502 receives the tidal force 506 vertically and horizontally, and the force transmitting unit 502 applies the tidal force 506 back and forth to the pressure 513 and the up and down pressure 515 to the piezoelectric element. forward to (507). The piezoelectric element 507 generates electricity by repeatedly using the

pressing pressures

513 and 515 of the tidal force 506 and the repulsive forces 514 and 516 of the spring 511 .

As a result, the piezoelectric element 507 installed around the upper column 505 generates electricity using the pressure 513 and the repulsive force 514 that move back and forth transmitted from the force transmission unit 502, and the lower column 504, the upper end The piezoelectric element 507 installed in the to generate electricity using the vertical movement pressure 515 and the repulsive force 516 transmitted to the lower end of the force transmission unit 502 .

That is, since the plate 501 interferes with the power of the wave, the current force 506 hits the plate 501 as it is. The plate 501 absorbs the tidal force 506 and is transmitted to the force transmission unit 502 integrally coupled with the plate 501 , and the tidal force 506 in the force transmission unit 502 is the

pressure

513 , 515 . ) and is transferred to the piezoelectric element 507 installed on the double column 503 , the piezoelectric element generates electricity using the

pressures

513 and 515 .

The piezoelectric element 507 is provided with a spring 511 and has a repulsive force. Of course, the various types of piezoelectric elements are slightly different, but they have elasticity and thus have a repulsive force to resist pressure, thereby generating electricity by repeating the pressure and the repulsive force 512 . As a result, the piezoelectric element 507 uses the tidal force transmitted from the force transmission unit to produce electricity.

In addition, when the piezoelectric element 507 is used, the force transmission unit 502, the upper column 505, and the lower column 504 prevent each other from collided with each other and serve as a cushion to protect the facility.

5. In a wave power generation system that does not require a gear device using a plate, a bearing, and a watertight device,

In Figures 19 and 20, and Figures 21 and 22, two double pillars 123 are erected in the sea where the wave force 126 strikes back and forth. 124) It is composed of an upper column 125 coupled to the upper column, and the lower column 124 has a larger diameter than the upper column 125 .

The diameter of the upper pillar 125 is smaller than the diameter of the force transmission unit 122 so that the force transmission unit 122 can be easily fitted, and the diameter of the lower pillar 124 is larger than the diameter of the force transmission unit 122. Make sure that the force transmitting part 122 does not fall down.

The two-stage pillar 123 is erected in the sea, and the lower pillar 124 fixed to the ground is erected so that the upper end of the lower pillar 124 comes out above the water surface so that the sea water does not touch it. Of course, the upper pole 125 is, of course, fixed on the lower pole 124 so as not to come into contact with seawater. Since the upper end of the lower column 124 and the upper column 125 are on the water surface, there is no need for a watertight device because the piezoelectric element 127 and the force transmitting unit 122 for generating electricity are naturally outside the water.

Install the plate 121 using the wave force 126 between the two-stage pillars 123, couple the connecting rods 128 to both ends of the plate 121, and combine the connecting rods 128 with the force transmission unit 122, and transmit the force The parts 122 are fitted to each of the upper pillars 125 . That is, if the plate 121 and the force transmission unit 122 are integrated and the force transmission unit 122 is installed around the upper pillar 125 at the upper end of the double pillar 123, it is inserted from top to bottom as it is assembled. Easy to install.

A piezoelectric element 127 is installed around the upper column 125 , and a piezoelectric element 127 is also installed at the upper end of the lower column 124 . Electricity produced by each piezoelectric element 127 is supplied through an electric wire 129 .

The wave force 126 transmits the force to the plate 121 , the plate 121 transmits the wave force 126 to the force transfer unit 122 coupled to the connecting rod 128 , and the force transfer unit 122 transmits the wave force 126 . ) to transmit the wave force 126 to the piezoelectric element 127 in the form of pressures 133 and 135 . When the piezoelectric element 127 is pressed with pressure 133 and 135, electricity is produced.

Since the wave force 126 not only strikes back and forth, but also moves slightly up and down, the plate 121, the connecting rod 128, and the force transmitting unit 122 not only vibrate back and forth, but also move up and down. Eventually, the force transmitting unit 122 receives the wave force 126 up, down, left and right, and the force transmitting unit 122 applies the pressure 133 to move the wave force 126 back and forth and the pressure 135 to move up and down to the piezoelectric element 127 . ) is transmitted to The piezoelectric element 127 generates electricity by repeatedly using the pressing pressures 133 and 135 of the wave force 126 and the

repulsive forces

134 and 136 of the spring 131 .

As a result, the piezoelectric element 127 installed around the upper column 125 generates electricity using the pressure 133 and the repulsive force 134 that move back and forth transmitted from the force transmitting unit 122, and the lower column 124, the upper end The piezoelectric element 127 installed in the to generate electricity using the vertical movement pressure 135 and the repulsive force 136 transmitted to the lower end of the force transmission unit 122 .

That is, since the plate 121 obstructs the flow of the flowing wave, the wave force 126 hits the plate 121 as it is. The plate 121 absorbs the wave force 126 and is transmitted to the force transmitting unit 122 integrally coupled to the connecting rod 128 coupled to the plate 121, and the wave force 126 in the force transmitting unit 122 is The pressure is changed to 133 and 135 and transmitted to the piezoelectric element 127 installed on the double column 123 , and the piezoelectric element 127 generates electricity using the pressures 133 and 135 .

The plate 121 absorbs the wave force 126 in the water, but the force transmission unit 122 and the piezoelectric element 127 are outside the water, so electricity can be produced without the need for a watertight device.

If there is no need for a watertight device, it is very easy to install, and the construction cost is small, there are few breakdowns, and even if there is a breakdown, it can be repaired very easily.

The piezoelectric element 127 is provided with a spring 131 and has a repulsive force. Of course, the various types of piezoelectric elements are slightly different, but they have elasticity and thus have a repulsive force to resist pressure, thereby generating electricity by repeating the pressure and the repulsive force 132 . As a result, the piezoelectric element 127 generates electricity by using the wave force transmitted from the force transmitting unit 122 .

And, when the piezoelectric element 127 is used, the force transmission unit 122, the upper column 125, and the lower column 124 prevent each other from collided with each other, thereby serving as a cushion to protect the facility.

In addition, when using soft carbon fiber or special cloth as the material of the plate 121, a string 130 between the plate 121 and the lower pillar 124 connects the wave force 126 to the force transmission unit 122. It could be conveyed better. Of course, it is also possible to use the plate 121 made of various other materials if necessary.

6. In a tidal power generation system that does not require a gear device using a plate, a bearing, and a watertight device,

In Figures 23, 24, 25 and 26, two double pillars 623 are erected in the sea through which the current 626 flows, and the double pillar 623 is a lower pillar 624 fixed to the ground and a lower pillar ( 624) is composed of an upper pillar 625 that is installed and coupled to the upper end, and the lower pillar 624 has a larger diameter than the upper pillar 625 .

The diameter of the upper pillar 625 is smaller than the diameter of the force transmission unit 622 so that the force transmission unit 622 can be easily fitted, and the diameter of the lower pillar 624 is larger than the diameter of the force transmission unit 622. Make sure that the force transmitting part 622 does not fall down.

The two-stage column (623) is erected in the sea, and the upper end of the lower column (624) is erected so that the lower column (624) fixed to the ground does not come into contact with the sea water. Of course, the upper column 625 is, of course, fixed on the lower column 624 so as not to come into contact with seawater. Since the upper end of the lower column 624 and the upper column 625 are on the water surface, there is no need for a watertight device because the piezoelectric element 627 and the force transmitting unit 622 for generating electricity are naturally outside the water.

A plate 621 using a tidal force 626 is installed between the two-stage pillars 623, the connecting rods 628 are coupled to both ends of the plate 621, and the connecting rod 628 is combined with the force transmitting unit 622, and the force The transmission parts 622 are fitted to each of the upper pillars 625 . That is, if the plate 621 and the force transmission unit 622 are integrated to install the force transmission unit 622 around the upper pillar 625 at the upper end of the double pillar 623, as it is assembled from top to bottom. Easy to install.

A piezoelectric element 627 is installed around the upper column 625 , and a piezoelectric element 627 is also installed at the upper end of the lower column 624 . Electricity produced by each piezoelectric element 627 is supplied through an electric wire 629 .

The tidal force 626 transmits the force to the plate 621, the plate 621 transmits the tidal force 626 to the force transfer unit 622 coupled with the connecting rod 628, and the force transfer unit 622 transmits the current The force 626 transmits the tidal force 626 to the piezoelectric element 627 in the form of

pressures

633 and 635 . When the piezoelectric element 627 is pressed with

pressure

633 and 635, electricity is produced.

Since the tidal force 626 not only strikes back and forth, but also moves slightly up and down, the plate 621, the connecting rod 628, and the force transmitting part 622 not only swing back and forth, but also move up and down. As a result, the force transmitting unit 622 receives the tidal force 626 up and down, left and right, and the force transmitting unit 622 applies the pressure 633 moving the tidal force 626 back and forth and the pressure 635 moving up and down to the piezoelectric element. forward to (627). The piezoelectric element 627 generates electricity by repeatedly using the

pressing pressures

633 and 635 of the tidal force 626 and the repulsive forces 634 and 636 of the spring 631 .

As a result, the piezoelectric element 627 installed around the upper column 625 produces electricity using the pressure 633 and the repulsive force 634 that move back and forth transmitted from the force transmission unit 622, and the upper end of the lower column 624. The piezoelectric element 627 installed in the generator generates electricity by using the vertical movement pressure 635 and the repulsive force 636 transmitted to the lower end of the force transmission unit 622 .

That is, since the plate 621 obstructs the flow of the flowing tidal current, the tidal force 626 hits the plate 621 as it is. The plate 621 absorbs the wave force 626 and is transmitted to the force transmission unit 622 integrally coupled with the connecting rod 628 coupled with the plate 621, and the current force 626 from the force transmission unit 622. The silver is changed into

pressures

633 and 635 and transmitted to the piezoelectric element 627 installed on the double column 623 , and the piezoelectric element 627 generates electricity using the

pressures

633 and 635 .

The plate 621 absorbs the tidal force 626 in the water, but the force transmitting part 622 and the piezoelectric element 627 are outside the water, so electricity can be produced without the need for a watertight device.

The piezoelectric element 627 is provided with a spring 631 and has a repulsive force. Of course, the various types of piezoelectric elements are slightly different, but they have elasticity and thus have a repulsive force to resist the pressure, so that the pressure and the repulsive force 632 are repeated to produce electricity. As a result, the piezoelectric element 627 generates electricity by using the tidal force transmitted from the force transmitting unit 622 .

In addition, when the piezoelectric element 627 is used, the force transmission unit 622, the upper column 625, and the lower column 624 prevent each other from collided with each other and serve as a cushion to protect the facility.

In addition, when using soft carbon fiber or special cloth as the material of the plate 621, a string 630 between the plate 621 and the lower column 624 connects the tidal force 626 to the force transmission unit 622. may be better communicated to Of course, it is also possible to use the plate 621 made of various other materials if necessary.

7. In a wind power generation system without a gear device and a bearing using a plate,

27, 28, 29 and 30, two double pillars 53 are erected on the ground where the wind blows and the wind power 56 blows. The double pillar 53 is a lower pillar 54 fixed to the ground and the lower It consists of an upper column 55 that is installed and coupled to the top of the column 54 , and the lower column 54 has a larger diameter than the upper column 55 .

The diameter of the upper pillar 55 is made smaller than the diameter of the force transmission unit 52 so that the force transmission unit 52 can be easily inserted, and the diameter of the lower pillar 54 is larger than the diameter of the force transmission unit 52 . Make sure that the force transmitting part 52 does not fall down.

A plate 51 using wind power 56 is installed between the two-stage pillars 53, and the force transmission units 52 are coupled to both ends of the plate 51, and the force transmission units 52 are attached to each of the upper pillars 55. insert That is, if the plate 51 and the force transmission unit 52 are integrated and the force transmission unit 52 is installed around the upper pillar 55 at the upper end of the double pillar 53, it is inserted from top to bottom as it is assembled. Easy to install.

A piezoelectric element 57 is installed around the upper column 55 , and a piezoelectric element 57 is also installed at the upper end of the lower column 54 . Electricity produced by each piezoelectric element 57 is supplied through an electric wire 59 .

The wind force 56 transmits a force to the plate 51 , the plate 51 transmits the wind force 56 to the force transmitting unit 502 , and the force transmitting unit 52 transmits the wind force 56 to the pressure 63 , 65 . ) transmits the wind force 56 to the piezoelectric element 57 in the form of. Electricity is produced when the piezoelectric element 57 is pressed with pressures 63 and 65 .

Since the wind force 56 not only blows back and forth, but also moves slightly up and down, the plate 51 and the force transmitting unit 52 not only swing back and forth, but also move up and down. As a result, the force transmitting unit 52 receives the wind power 56 up, down, left and right, and the force transmitting unit 52 applies the pressure 63 that moves the wind power 56 back and forth and the pressure 65 that moves up and down to the piezoelectric element 57 ) is transmitted to The piezoelectric element 57 generates electricity by repeatedly using the pressing pressures 63 and 65 of the wind power 56 and the repulsive forces 64 and 66 of the spring 61 .

As a result, the piezoelectric element 57 installed around the upper column 55 generates electricity using the pressure 63 and the repulsive force 64 that move back and forth transmitted from the force transmission unit 52, and the lower column 54, the upper end The piezoelectric element 57 installed in the unit generates electricity by using the vertical moving pressure 65 and the repulsive force 66 transmitted to the lower end of the force transmitting unit 52 .

That is, since the plate 51 interferes with the power of the wave, the wind force 56 strikes the plate 51 as it is. The plate 51 absorbs the wind force 56 and is transmitted to the force transmission unit 52 integrally coupled to the plate 51 , and the wind force 56 in the force transmission unit 52 generates pressures 63 and 65 . The change is transmitted to the piezoelectric element 57 installed on the double-pole 53, and the piezoelectric element generates electricity using the pressures 63 and 65.

The piezoelectric element 57 is provided with a spring 61 and has a repulsive force. Of course, the various types of piezoelectric elements are slightly different, but they have elasticity and thus have a repulsive force to resist pressure, thereby producing electricity by repeating the pressure and the repulsive force (62). As a result, the piezoelectric element 57 uses the wind power transmitted from the force transmission unit to produce electricity.

And, when the piezoelectric element 57 is used, the force transmission unit 52, the upper column 55, and the lower column 54 prevent each other from colliding with each other, thereby serving as a cushion to protect the facility.

1. A gear device using a plate and a wave power and wind power generation system without a bearing and no watertight device, 2. a gear device using a plate, a tidal power and wind power generation system without a bearing and a watertight device, and 3. a plate using Wave power generation system without gear device and bearing, 4. Tidal power generation system without gear device and bearing using plate, 5. Wave power generation system without gear device and bearing and watertight device using plate, and 6. Plate using In a tidal power generation system that does not require a gear device, a bearing, and a watertight device, and 7. a wind power generation system without a gear device and a bearing using a plate,

A plate is a generic term for a wide plate that receives a force, and the plate is made of various materials such as steel plate, graphene, carbon nanotubes, carbon fiber, special fabric, and reinforced plastic, and is suitable for the strength and location of wave and wind power. form can be used. In other words, the plate is made of a material that is light, resilient, strong, durable and inexpensive.

In wave and tidal force and wind power generation systems without gear devices and bearings using plates, it is natural to select a material that has elasticity, strong strength, good power transmission, and low cost. It is also natural to choose the right material according to the location and location. And, when connecting and combining plates, force transmission parts, and columns, it is also natural to install them in a direction that is hard and transmits power.

It is natural for the force transmission part to choose a durable and cheap material that also has good power transmission.

Double pillars, lower pillars, and upper pillars can also be made into various shapes such as circles or polygons.

Although the name of the piezoelectric element is different for its elasticity and durability, it is also natural to use a piezoelectric element of the same concept or another power generating element using pressure.

The wave power, tidal power and wind power generation system using the above plate produces electricity using wave power, tidal power and wind power with only one plate, so the structure is simple, the energy efficiency is excellent, and the installation cost is low due to easy installation. It has a structure without bearings and gears, so there is no place for failure. Even if there is a failure, repair and replacement are easy as if assembling.

The present invention is a new and renewable energy generation system capable of producing enormous electricity at once when accompanied by a technology capable of making the size of the plate extremely large.

As the business performance and economic feasibility are overwhelming, it is a wave power, tidal power and wind power generation system without a gear device and bearing using a plate that can dominate the global new and renewable energy market.

8. In the power generation system using vibration,

In Figures 31 and 32, two pillars 301 are erected in the sea where the current flows.

A box 302 using a tidal force 306 is installed between the pillars 301 , and both ends of the box 302 are firmly fixed to each pillar 301 .

The inside of the box 302 is partitioned, and the thin positive plate 303-1 and the thin negative plate 303-2 are closely spaced in parallel with each other. The positive electrode plate 303-1 and the negative electrode plate 303-2 installed side by side facing each other are vibration generator elements 303 that generate electricity using vibration or shock. That is, the positive electrode plate 303-1 and the negative electrode plate 303-2, which are installed in multiple layers at close intervals, are like the vibration generator elements 303 are installed in multiple layers with close spacing.

By installing the vibration amplifier plate 304 between the vibration generator elements 3033 erected one after another at close intervals, the shock and vibration are amplified by the principle of resonance, etc. makes it

That is, in the box 302, the vibration generator element 303 for generating electricity and the vibration amplifier box 304 for amplifying shock and vibration are installed at intervals.

Of course, the box 302 uses a material that is elastic, transmits shock well, and is durable, and it is a basic common sense that the box 302 does not allow water to enter.

When the box 302 in which the vibration generating element 303 and the vibration amplifying box 304 are installed is fixed between the pillars 301 and installed in the sea where the current flows, the box 302 obstructs the flow of the current. 306 applies shock and vibration to the box 302 as it is. The box 302 transmits the shock and vibration to the vibration generating element 303 in the box 302 to produce electricity in the vibration generating element 303 by the shock and vibration. The generated electricity is transmitted to the outside through the electric wire 305 . The vibration amplifying plate 304 installed in the box 302 further amplifies the continuously transmitted shock and vibration based on the principle of resonance, etc., so that the vibration generating element 303 produces greater electricity.

The box 302 is a general term for a large case of a polyhedron model, and of course, it is made to prevent water from permeating, and it can also be made in a spherical shape. The box 302 can be used by using materials such as steel, graphene elastic fiber, plastic, special fiber, and the like to make the box suitable for use in various shapes and shapes according to the strength and location or location of the tidal force. In addition, the number or method of installing the vibration generating element 303 and the vibration amplifier plate 304 in the box 302 according to the strength and location or location of the tidal force can also be installed and used differently.

It is natural for the box 302 to select a material that is elastic and strong, has good power transmission, and is inexpensive, and it is also natural to select an appropriate material according to the strength and location or location of the tidal force. In addition, one pillar 301 may be used or several may be used. It is also a natural fact that the box 302 can also have a different shape and size depending on the number of pillars 301 .

In addition, according to the location or location, the installation location of the pillar 301 may be installed on land to generate electricity using tidal power.

That is, the pole 301 is installed on land and the box 302 is made long, and only the box 302 is installed where the tidal force 306 flows to produce electricity.

In addition, the tidal power generation system using the pillar and box, the vibration generator and the vibration amplifier has the advantage that it can be used by applying the same concept in different environments. In other words, it can be used as a wave power generation system that generates electricity using waves in a place where there are waves, and can be used as a tidal power generation system that produces electricity by using current power in a place where the current flows, and it can also be used where river water flows. On land, if installed in a windy place, electricity can be produced by a wind power generation system. It can be used on roads or railroad tracks, and it can also be applied to moving vehicles such as ships, automobiles and aircraft to produce electricity.

It can be installed in a fixed place such as a building or bridge to generate electricity using vibration and shock.

The invention can be said to be a true renewable power generation system that has the advantage of being able to produce electricity by using it wherever shock and vibration occur.

9. A power generation system using a rope and vibration,

33 and 34, a pole 307 is erected in the sea where the waves hit back and forth, and the rope 308 is connected. A pole 309 is erected on the land and a rope 310 is connected thereto.

A box 311 using a wave force 315 is coupled to the

ropes

308 and 310 connected to the posts 307 and 309 .

The number of posts (307, 309) and ropes (308, 310) can be different depending on the place and situation. Also, the box 311 can be connected to the posts (307, 309) and the ropes (308, 310) or can be connected separately, respectively. You can do it differently depending on

That is, the box 311 may be connected only to the land column, may be connected only to the sea column, or may be connected to both the land column and the sea column.

The inside of the box 311 is partitioned, and the thin positive electrode plate 312-1 and the thin negative electrode plate 312-2 are closely spaced side by side. The positive electrode plate 312-1 and the negative electrode plate 312-2 installed side by side facing each other are vibration generator elements 312 that generate electricity using vibration or shock. That is, the positive electrode plate 312-1 and the negative electrode plate 312-2 installed in multiple layers at close intervals are the same as the vibration generator elements 312 installed in multiple layers at close intervals.

A vibration amplifier plate 313 is installed between the vibration generator elements 312 erected one after the other at close intervals to amplify the shock and vibration by the principle of resonance, etc. makes it

That is, in the box 311, the vibration generator element 312 for generating electricity and the vibration amplifier plate 313 for amplifying shock and vibration are installed at intervals.

Of course, the box 311 is elastic, transmits shock well, and uses a durable material, and it is a basic common sense to prevent water from entering the box 311 . In addition, the box 311 may be made to be buoyant so that it can float on the water. And, it may be installed in the water using the buoyancy and the posts (307, 309) and the rope (308, 310).

That is, the box 311 may be installed on the water or in the water according to the sea condition or location.

When the box 311 in which the vibration generator element 312 and the vibration amplifier plate 313 are installed is fixed with

ropes

308, 311 and pillars 307 and 309 and installed in the flowing sea where waves strike, the box 311 is the tidal current. Because the flow is obstructed, the wave force 315 applies shock and vibration to the box 311 as it is. The box 311 transmits the shock and vibration to the vibration generating element 312 in the box 311 to produce electricity in the vibration generating element 312 by the shock and vibration. The generated electricity is transmitted to the outside through the electric wire 314 . The vibration amplifier plate 313 installed in the box 311 further amplifies the continuously transmitted shock and vibration based on the principle of resonance, etc., and makes the vibration generator element 312 to produce greater electricity.

The box 311 is a generic term for a large case of a polyhedral model, and of course, it is made not to permeate water, and may be made in the form of a sphere 380 . The box 311 can be made using materials such as steel, graphene elastic fibers, carbon nanotubes, reinforced plastics, special fibers, and the like to make the box suitable for use in various shapes or shapes according to the strength and location or location of the wave force. In addition, the number or method of installing the vibration generating element 312 and the vibration amplifier plate 313 in the box 311 according to the strength and location or location of the wave force can also be installed and used differently.

It is natural for the box 311 to select a material that is elastic and strong, has good power transmission, and is inexpensive, and it is also natural to select an appropriate material according to the strength and location or location of the wave force. In addition, one pillar (307, 309) may be used, or several may be used, and the size and length may be different. It is also a natural fact that the box 311 can also have a different shape and size according to the number of pillars 307 and 309 .

The wave power generation system using the above column, box, vibration generator and vibration amplifier plate has the advantage of not only having no gear device and bearing, but also has a simple structure, so there is almost no failure. There is also the advantage that the size of the box can be enlarged or reduced by mind. The present invention has the advantages of having a simple structure, excellent energy efficiency, excellent economic feasibility, low construction cost due to simple installation, and no need for repair or replacement because there is almost no breakdown.

In addition, the wave power generation system using the pillar and box, the vibration generator and the vibration amplifier has the advantage that it can be used by applying the same concept in different environments. In other words, it can be used as a wave power generation system that generates electricity using waves in a place where there are waves, and can be used as a tidal power generation system that produces electricity by using current power in a place where the current flows, and it can also be used where river water flows. can produce electricity.

10. In wave power generation using elastic structures,

35 and 36, a pillar 368 is installed on the bottom of the sea, and an elastic structure 361 is installed thereon.

A resonance vibration amplifier plate 362 is installed to further amplify the force of shock and vibration, which is the force of the wave force 367 hit by the wave 369 by dividing the inside of the elastic structure 361 . An elastic plate 363 is erected between the resonance vibration amplifier plates 362 , and a piezoelectric element 364 is installed between the elastic plates 363 .

In addition, the vibration generating element 365 densely installed between the resonance vibration amplifier plates 362 sets the positive electrode plate 365-1 and the negative electrode plate 365-1 one after another at close intervals. Electricity produced by the piezoelectric element 364 and the vibration generating element 365 is supplied through an electric wire 366 .

When the wave force 367 applies shock and vibration to the elastic structure 361, when the shock and vibration are transmitted to the elastic plate 363, the shock and vibration are applied to the piezoelectric element 364 installed between the elastic plates 363 to generate electricity will do

In addition, when the wave force 367 applies shock and vibration to the elastic structure 361 , the shock and vibration are transmitted to the densely installed vibration generating element 365 to produce electricity.

And the resonance vibration amplifier plate 362 amplifies the shock and vibration of the repeated wave force 367 to transmit more to the piezoelectric element 364 and the vibration generator element 365 .

The wave power generation using the elastic structure 361 installed on the pillar 368 has the advantage of maximizing energy efficiency while the installation cost is low because the structure is simple.

11. In the wave power generation using the lower tube tube,

In FIG. 37, a pillar 78 is installed on the bottom of the sea, and a flexible tube 71 is installed thereon.

A piezoelectric element 73 , a vibration generating element 74 , and a friction generating element 75 are installed in the elastic tube tube 71 . And by filling the air 72 between the elastic tube tube 71, the elastic tube tube 71 is made to stand in the water almost in a straight line.

The electricity produced by the piezoelectric element 73 , the vibration generating element 74 , and the friction generating element 75 supplies electricity through the electric wire 79 .

When the wave force 76, 77, which is a force generated by the wave 80, is transmitted to the elastic tube tube 71 in the form of pressure, shock, and vibration, the pressure is mainly generated by the piezoelectric element 73, which produces electricity, In the vibration, the vibration generating element 74 mainly produces electricity, and the force transmitted in the form of shock is changed into various forms, and the friction generating element 75 mainly produces electricity.

The wave power generation using the elastic tube tube 71 installed on the pillar 78 has the advantage of maximizing energy efficiency while the installation cost is low due to its simple structure.

12. In the wave power generation using the upper tube tube,

In FIG. 38 , a pole 89 is installed on the bottom of the sea and a pole 88 is installed on the land. A flexible tube tube 81 is connected between the pillars 88 and 89 using the ropes 90 and 91 .

A piezoelectric element 83 , a vibration generating element 84 , and a friction generating element 85 are installed in the elastic tube tube 81 .

In addition, the electricity produced by the piezoelectric element 83 , the vibration generating element 84 , and the friction generating element 85 supplies electricity through the electric wire 92 .

When the wave force 86, 87, which is the force generated by the wave 93, is transmitted to the elastic tube tube 81 in the form of pressure, shock, and vibration, the pressure is mainly generated by the piezoelectric element 83, which produces electricity, In the vibration, the vibration generating element 84 mainly produces electricity, and the force transmitted in the form of an impact is changed into various forms, and the friction generating element 85 mainly produces electricity.

The wave power generation using the elastic tube tube 81 has a simple structure, so the installation cost is low and the energy efficiency is maximized.

13. In a tidal power generation system using a floating body and a plank,

39, 40, 41 and 42, the floating body 220 is attached to the sea through which the current flows, and the two pillars 204 are coupled to the lower end of the floating body 220, and the force of the current flowing between the pillars 204 is Install the board 202 using the tidal force 201. The board 202 is coupled with the connection part 203 at both ends to attach the connection part 203 to the post 204 .

That is, the plank 202 and the connecting portion 203 are integrated and installed between the two pillars 204 and attached to the pillar 204 . At this time, since the board 202 interferes with the flow of the flowing current, the current force 201 strikes the board 202 as it is. The plank 202 absorbs the tidal force 201 and is transmitted to the connecting portion 203 integrally coupled with the plank 202, and eventually the connecting portion 203 is attached to the pole 204 to which the tidal force 201 is applied. will be conveyed

Because the tidal force 201, which is the force of the flowing current, is too strong, when the board 202 absorbs all the tidal force 201, the plank 202 wants to be broken or destroyed by the strong tidal force 201, and the strong tidal force In order to withstand the 201, the size of the post 204 and the connecting portion 203 should be made larger and stronger.

To prevent this, a hole 205 is drilled in the plank 202 .

And when the hole 205 is drilled in the board 202, while minimizing the destruction and failure of the board 202, a vortex is generated while the current passes through the hole 205, thereby delivering greater shock and vibration to the board 202. makes it

Of course, it is also possible to write without drilling a hole in the board 202.

In addition, the force of tidal currents flowing in the sea is a combined force of pressure, shock, vibration, friction, and various forms. And the electricity produced by the tidal power 201 through several steps is supplied using the electric wire 217 .

The pole 221 is installed on the land so that the floating body 220 does not move far away from the sea, and the rope 222 is well coupled between the floating body 220 and the pillar 221 .

Where the floating body 220 is far away from the land, a pole 223 is installed on the sea floor and a rope 224 is well coupled between the floating body 220 and the pole 223 .

Of course, depending on the site, the floating body 220, the pillars (221, 223) and the rope (222, 224) may be used together.

In Figure 40, the piezoelectric element 206, the vibration generator element 207, and the friction generator element 208 that make electricity by using the tidal force on the column 204 installed at the lower end of the floating body 220 are carefully installed to produce electricity well. install

The piezoelectric element 206 installed on the pillar 204 mainly generates electricity by pressure, the vibration generating element 207 mainly generates electricity by shock and vibration, and the friction generating element 208 mainly generates electricity by frictional force. makes

In FIG. 41, the connection part 203 coupled with the board 202 is attached to the post 204, at this time, the connection part 203 to the post 204 so as to transmit the tidal force 201 received by the board 202 well. attach well to That is, it is attached so that the pressure, shock, vibration, friction, and various forms of the pressure, shock, vibration, and friction force of the tidal force 201 received by the connection part 203 are transmitted to the column 204 well. The piezoelectric element 206, the vibration generator element 207, and the friction generator element 208 are carefully installed to produce electricity well, and the vibration generator element 207 is a vibration generator element positive plate 207-1 so that electricity production is good. and the negative electrode plate 207-2 of the vibration generator are installed closely. In addition, the friction generating element positive plate 208-1 and the friction generating element negative plate 208-2 are densely installed in the friction generating element 208 to produce electricity well.

The pressure 209 of the tidal force 201 received by the connecting part 203 mainly produces electricity by the piezoelectric element 206 installed on the column 204, and the tidal force 201 received by the connecting part 203 is Shock and vibration 210 mainly produces electricity by the vibration generating element 207 installed on the pillar 204, and the frictional force 211 of the tidal force 201 received by the connection part 203 is mainly the pillar 204. Electricity is produced by the friction generator element 206 installed in the

That is, the board 202 absorbs the tidal force 201, is transmitted from the board 202 to the connection part 203, and the combined force of the tidal force 201 transmitted to the connection part 203 is applied to the column 204. It is a tidal power generation system using a plank that produces electricity by well using the piezoelectric element 206, the vibration generator element 207, and the friction generator element 208 installed in the .

In the above electricity generating systems, the board is a generic term for a wide plate that receives a force, and it is natural to select a material that is elastic and strong, has good power transmission and is inexpensive, and it depends on the location or location of the current. It is natural to choose the right plank material. And, it is also a natural fact to install in a direction that is hard and transmits power when connecting and combining floating bodies, boards, connecting parts, and columns.

Power generation systems such as piezoelectric element, vibration generator element, and friction generator element are waterproof, and it is also natural and true to use the same concept power generation element even if the name is different.

The floating body can also be slightly deformed according to the flow of the sea and current, and the positions of the pillars, boards and connecting parts installed at the bottom can be changed depending on the site, and it is also natural to connect them firmly and fix them so that they do not fall off.

In addition, the tidal power generation system using the floating body and the board has the advantage that it can be used by applying the same concept in different environments. That is, it can be used as a wave power generation system that produces electricity using waves in a place where waves are flowing, and can be used as a tide power system that produces electricity using current power in a place where the current flows.

It is a simple renewable energy generation system that uses a plate and a piezoelectric element to generate electricity without gears and bearings using tidal power, wave power, and wind power.

Since it is a wave power, tidal power, and wind power generation system without a gear device and bearings using a simple structure and excellent efficiency, the industrial applicability is limitless.

1. A wave power and wind power generation system that does not require a gear device and bearings using a plate and does not require a watertight device

21: lower plate (wave power), 22: force transmission part, 23: double column with different diameters, 24: lower column, 25: upper column, 26: wave power, 27: piezoelectric (wave power) element, 28: upper plate (wind power) ), 29: electric wire, 30: rope, 31: spring, 32: pressure and repulsion, 33: pressure, 34: repulsion, 35: pressure, 36: repulsive force, 39: wind power, 40: plate

2. A tidal power and wind power generation system that does not require a gear device and bearings using a plate and does not require a watertight device

421: lower plate (wave force), 422: force transmission part, 423: double column with different diameters, 424: lower column, 425: upper column, 426: tidal force, 427: piezoelectric (wave power) element, 428: upper plate ( Wind power), 429 electric wire, 430 rope, 431 spring, 432 pressure and repulsion, 433 pressure, 434 repulsion, 435 pressure, 436 repulsion, 439 wind force, 440 plate

3. A wave power generation system without gears and bearings using plates

1: plate, 2: force transmission part, 3: double column, 4: lower column, 5: upper column, 6: wave force, 7: piezoelectric (electric wave) element, 9: electric wire, 11: spring, 12: pressure and repulsion force , 13: pressure, 14: repulsive force, 15: pressure, 16: repulsive force.

4. Tidal power generation system without gear device and bearing using plate

501: plate, 502: force transmission unit, 503: double column, 504: lower column, 505: upper column, 506: current force, 507: piezoelectric (electric wave) element, 509: electric wire, 511: spring, 512: pressure and Repulsion force, 513 pressure, 514 repulsion force, 515 pressure, 516 repulsion force.

5. A wave power generation system that does not require gears, bearings and watertight devices using plates

121: plate, 122: force transmission part, 123: double column with different diameters, 124: lower column, 125: upper column, 126: wave power, 127: piezoelectric (wave power) element, 128: connecting rod, 129: electric wire, 130: String, 131: spring, 132: pressure and repulsion, 133: pressure, 134: repulsion, 135: pressure, 136: repulsion.

6. Tidal power generation system that does not require gears, bearings and watertight devices using plates

621: plate, 622: force transmission part, 623: double column of different diameters, 624: lower column, 625: upper column, 626: tidal force, 627: piezoelectric (paelectric) element, 628: connecting rod, 629: electric wire, 630 : line, 631: spring, 632: pressure and repulsion, 633: pressure, 634: repulsive force, 635: pressure, 636: repulsive force.

7. Wind power generation system without gear device and bearing using plate

51: plate, 52: force transmission unit, 53: double column, 54: lower column, 55: upper column, 56: wind power, 57: piezoelectric (paelectric) element, 59: electric wire, 61: spring, 62: pressure and repulsion force , 63: pressure, 64: repulsive force, 65: pressure, 66: repulsive force.

8. Power generation system using vibration

301 column, 302 box, 303 vibration generator element, 303-1 positive plate, 303-2 negative plate, 304 vibration amplifier plate, 305 electric wire, 306 tidal power (wave power, wind power).

9. Power generation system using rope and vibration

307: pillar, 308: rope, 309: pillar, 310: rope, 311: box, 312: vibration generator element, 312-1: positive plate, 312-2: negative plate, 313: vibration amplifier plate, 314: electric wire, 315: Tidal power (wave power, wind power), 380: gu.

10. Wave power generation using elastic structures

361: elastic structure, 362: resonance vibration amplifier plate, 363: elastic plate, 364: piezoelectric element, 365: vibration generator element, 365-1: positive plate, 365-1: negative plate, 366: electric wire, 367: wave power, 368: Pillars, 369: Waves.

11. Wave power generation using lower tube tube

71: elastic tube tube, 72: air, 73: piezoelectric element, 74: vibration generator, 75: friction generator, 76: wave power, 77: wave power, 78: column, 79: electric wire, 80: wave.

12. Wave power generation using upper tube tube

81: elastic tube tube, 83: piezoelectric element, 84: vibration generator element, 85: friction generator element, 86: wave force, 87: wave force, 88: column, 89: column, 90: rope, 91: rope, 92: Electric Wire, 93: Waves.

13. A tidal power generation system using floats and boards,

201: tidal current, 202: board, 203: connection, 204: pillar, 205: hole, 206: piezoelectric element, 207: vibration generating element, 207-1: vibration generating element positive plate, 207-2: vibration generating element negative plate, 208: friction generator element, 208-1: friction generator positive plate, 208-2: friction generator negative plate, 209: pressure, 210: shock and vibration, 211: friction force, 217: electric wire, 220: floating body, 221: column, 222: rope, 223: pillar, 224: rope.

Claims

In a wave power and wind power generation system that does not require a gear device, a bearing, and a watertight device using a plate,

a plate 40 receiving both the power of the wave power 26 and the wind power 39;

a force transmission unit 22;

a double column (23) and;

A wave power and wind power generation system that does not require a gear device, a bearing, and a watertight device using a plate combining a piezoelectric element (27) and an electric wire (29).
The method according to claim 1,

It consists of a lower column 24 and an upper column 25, and the upper end of the lower column 24 and the upper column 25 is a two-stage column 23 installed on the floor that is not in contact with seawater;

a plate 40 installed between the two-stage pillars 23 and composed of a lower plate 21 receiving a wave force 26 and an upper plate 28 receiving a wind force 39;

a force transmission unit 22 coupled to the plate 40 to transmit the wave force 26 and the wind power 39 to the piezoelectric element 27 installed on the upper end of the lower column 24 and the upper column 25;

a piezoelectric element 27 installed around the upper pole 25 and the upper part of the lower pole 24 to generate electricity using wave power 26 and wind power 39;

a rope 30 connected to the plate 40 and the lower column 24;

A wave power and wind power generation system that does not require a gear device, a bearing, and a watertight device using a plate combined with an electric wire (29) that supplies the generated electricity.
In a tidal power and wind power generation system that does not require a waterproof device using a plate, a gear device, a bearing, and a watertight device,

a plate 440 receiving the force of the tidal force 426 and the wind force 439;

a force transmission unit 422;

a double column 423;

A tidal power and wind power generation system without a watertight device, a gear device, a bearing, and a watertight device using a plate combining a piezoelectric element 427 and an electric wire 429.
4. The method of claim 3,

It consists of a lower column 424 and an upper column 425, and the lower column 424, the upper end and the upper column 425 is a two-stage column 423 installed on the floor above the water surface that does not reach the seawater;

a plate 440 installed between the two-stage pillars 423 and composed of a lower plate 421 receiving a tidal force 426 and an upper plate 428 receiving a wind force 439;

A force transmission unit 422 coupled to the plate 440 to transmit the tidal force 426 and the wind power 439 to the piezoelectric element 4 27 installed on the upper end of the lower column 424 and the upper column 425;

a piezoelectric element 427 installed around the upper column 425 and the upper end of the lower column 424 to generate electricity using a tidal force 426 and wind power 439;

a rope 430 connected to the plate 440 and the lower column 424;

A tidal power and wind power generation system that does not require a watertight device, a gear device, a bearing, and a watertight device using a plate combined with an electric wire 429 that supplies the generated electricity.
In a wave power generation system without a gear device and a bearing using a plate,

plate (1);

a force transmission unit (2);

double column (3) and;

A wave power generation system without a gear device and a bearing using a plate combining a piezoelectric element (7) and an electric wire (9).
6. The method of claim 5,

A two-stage column (3) installed in the sea consisting of a lower column (4) and an upper column (5) and;

A plate (1) installed between the two-stage columns (3) to receive a wave force (6);

a force transmission unit 2 coupled with the plate 1 to transmit the wave force 6 to the piezoelectric element 7 installed on the lower column 4 and the upper column 5;

a piezoelectric element (7) installed around the upper column (5) and the upper end of the lower column (4) to generate electricity using a wave force (6);

A wave power generation system that does not require a gear device and a bearing using a plate combined with an electric wire (9) that supplies the produced electricity.
In a tidal power generation system without a gear device and a bearing using a plate,

plate 501;

a force transmission unit 502;

a double column 503;

A tidal power generation system without a gear device and a bearing using a plate combining a piezoelectric element (507) and an electric wire (509).
8. The method of claim 7,

A two-stage column 503 installed in the sea consisting of a lower column 504 and an upper column 505 and;

a plate 501 installed between the two-stage columns 503 to receive a tidal force 506;

a force transmission unit 502 coupled with the plate 501 to transmit the tidal force 506 to the piezoelectric element 507 installed on the lower column 504 and the upper column 505;

a piezoelectric element 507 installed around the upper column 505 and the upper end of the lower column 504 to generate electricity using a tidal force 506;

A tidal power generation system that does not require a gear device and a bearing using a plate combined with an electric wire 509 for supplying the produced electricity.
In a wave power generation system that does not require a gear device using a plate, a bearing, and a watertight device,

plate 121;

a force transmission unit 122;

a double column (123) and;

a connecting rod 128;

A wave power generation system that does not require a gear device, a bearing, and a watertight device using a plate combined with a piezoelectric element 127.
10. The method of claim 9,

The lower column 124, the upper end of the column and the upper column 125, the double column 123 installed above the water surface and;

A plate 121 that is installed between the double pillars 123 and receives a wave force 126;

a connecting rod 128 for coupling between the plate 121 and the force transmitting unit 122;

a force transmission unit 122 coupled to the plate 121 to transmit the wave force 126 to the piezoelectric element 127 installed on the lower column 124 and the upper column 125;

a piezoelectric element 127 installed on the circumference of the upper column 125 and the upper end of the lower column 124 to generate electricity using the wave force 126;

A wave power generation system that does not require a gear device, a bearing, and a watertight device using a plate combined with an electric wire 129 that supplies the generated electricity.
In a tidal power generation system that does not require a gear device using a plate, a bearing, and a watertight device,

plate 621;

a force transmission unit 622;

a double column (623);

a connecting rod 628;

A tidal power generation system that does not require a gear device, a bearing, and a watertight device using a plate combined with a piezoelectric element (627).
12. The method of claim 11,

a two-stage column 623 having the upper end of the lower column 624 and the upper column 625 installed above the water surface;

a plate 621 installed between the two-stage columns 623 to receive a tidal force 626;

a connecting rod 628 for coupling between the plate 621 and the force transmission unit 622;

a force transmission unit 622 coupled to the plate 621 to transmit the tidal force 626 to the piezoelectric element 627 installed on the lower column 624 and the upper column 625;

a piezoelectric element 627 installed around the upper column 625 and the upper end of the lower column 624 to generate electricity using a tidal force 626;

A tidal power generation system that does not require a gear device and a bearing and a watertight device using a plate combined with an electric wire (629) that supplies the generated electricity.
In a wind power generation system without a gear device and a bearing using a plate,

plate 51;

a force transmission unit 52;

a double column (53) and;

A wind power generation system without a gear device and a bearing using a plate combining a piezoelectric element (57) and an electric wire (59).
14. The method of claim 13,

A two-stage column 53 installed on the ground consisting of a lower column 54 and an upper column 55 and;

A plate 51 that is installed between the two-stage columns 53 and receives the wind force 56;

a force transmission unit 52 coupled to the plate 51 to transmit the wind force 56 to the piezoelectric element 57 installed on the lower column 54 and the upper column 55;

a piezoelectric element 57 installed around the upper column 55 and the upper end of the lower column 54 to generate electricity using wind power 56;

A wind power generation system that does not require a gear device and a bearing using a plate combined with an electric wire (59) that supplies the produced electricity.
In the power generation system using vibration,

pillar 301 and;

a box 302 fixed to the pillar 301;

a vibration power generating element 303 installed in the box 302 to generate electricity using the shock and vibration generated by the tidal power (wave power, wind power) 306;

a vibration amplifier plate 304 for amplifying shock and vibration by using a tidal force (wave power, wind power) 306;

A power generation system using vibration coupled to an electric wire 305 for supplying the generated electricity.
In the power generation system using a rope and vibration,

pillars 307 and 309;

ropes 308 and 310;

a box 311 connected to the posts 307 and 309 and the ropes 308 and 310;

a vibration generator element 312 installed in the box 311 to generate electricity using shock and vibration generated from a tidal force (wave power) 315;

a vibration amplifier plate 313 for amplifying shock and vibration;

A power generation system using a rope combined with an electric wire 314 for supplying the produced electricity and vibration.
In wave power generation using an elastic structure,

An elastic structure 361 installed on a pillar in the sea and;

a resonance vibration amplifier plate 362 for amplifying the shock and vibration of the wave force 367;

An elastic plate 363 that transmits the shock and vibration of the wave force 367 and;

a piezoelectric element 364 installed between the elastic plates 363 to generate electricity using a wave force 367;

a vibration power generator 365 installed between the resonance vibration amplifier plates 362 to produce electricity;

Wave power generation using an elastic structure coupled to an electric wire 366 for supplying the generated electricity.
In the wave power generation using the lower tube tube,

A resilient tube pipe 61 installed on a pillar in the sea and;

The air injected so that the elastic tube 61 is erected vertically;

a piezoelectric element 73, a vibration generator element 74, and a friction generator element 75 that are installed in the elastic tube 61 and generate electricity using wave forces 76 and 77;

Wave power generation using a flexible tube tube coupled with an electric wire 79 for supplying the produced electricity.
In the wave power generation using the upper tube tube,

a flexible tube tube 81 connected to a column and a rope;

a piezoelectric element 83, a vibration generator element 84, and a friction generator element 85 installed in the elastic tube tube 81 to generate electricity using wave forces 86 and 87;

Wave power generation using a resilient tube tube to which an electric wire 92 for supplying the produced electricity is coupled
In the tidal power generation system using a floating body and a plank,

A floating body 220 connected to the sea and land pillars and ropes installed on the sea;

Floating body 220 and a pillar 204 attached to the lower end;

The board 202 is installed between the pillars 204 to receive the tidal force 201 and;

A connecting portion 203 coupled to the plank 202 to transmit the current 201 to the column 204;

a piezoelectric element 620, a vibration generator element 207, and a friction generator element 208 that are installed on the pillar 204 and generate electricity using the transmitted tidal force 201;

A tidal power generation system using a floating body and a plank combined with an electric wire 217 for supplying the generated electricity.