KR20160016338A - Maritime communications kite of the electric power and marine products - Google Patents

Abstract

A communications system of a maritime connecting a city and the sea in the present invention is formed to improve an efficiency of generating electric power; achieve stabilization of a power system; automate a generation of maritime electric power; and satisfy an increased demand of communication data by connecting a maritime kite, a sea air kite, and a beach kite applying new wind energy, solar light, water turbine, and tidal power generation on the sea by a command ship rope having an optical fiber cable mounted. The communications system uses an underwater space to reduce the risks of typhoon and red tides, and achieves automation of a marine farm by being connected to the beach. The communications kite comprises at least one among the sea air kite located in the air, producing electric power; a maritime kite located on the sea or under the sea, and producing at least one marine product; and a beach kite located on the ground, producing at least one among an electric power and a marine product.

Description

Maritime communications kits of the electric power and marine products, which produce electricity and aquatic products,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system for generating power and marine products in the ocean, and more particularly, to a communication system for connecting a marine,

Although there are a few ways to generate electricity through the ocean, current technology relies on fixed, large wind turbines. Therefore, it is required to develop the technology of micro-smart power generation and the three-dimensional power generation technology of sea, air and beach.

Data demand for telecommunication has been increasing in recent 2 ~ 3 years due to the development of new and high speed multifunctional terminal like smart phone and expansion of users. However, existing wired / wireless communication systems are not meeting such demand because the available resources such as satellite orbit and frequency are decreasing. Accordingly, there is a demand for developing a new communication system capable of wider coverage and high-speed wired / wireless communication.

Current fisheries technologies rely on floats like cages, causing large damage in an environment where typhoons and red tides frequently occur. Therefore, there is a demand for the development of marine fisheries technology that minimizes their risk.

The present invention relates to a method for improving the efficiency of power generation and achieving stabilization of a power system by connecting a marine, a sea water, and a seashore with new wind power, sunlight, aberration and tidal power generation, , And to implement automation of marine power generation system.

In order to meet the increasing demand for communication data, we will implement a marine communications system connecting the city center and the ocean. We will utilize the seabed space to reduce the risk of typhoons and red tides, .

The present invention focuses on sustainable wind power and tidal power among resources of renewable energy and connects generation facilities of sea, sea, and beach by utilizing the technique of Yan to ensure complementarity, To strengthen the communication technology.

In order to float on the wind and the gas, the sea tangle has a structure like the upper plate, the lower plate and the floating body integrated with each other. In addition, more than 11km of the air-hole is stable like Z-flow, high-quality wind is blowing, and the wind power generator and the solar generator are installed in the sea of the sea because the sunlight can be sufficiently received on the clouds. Unlike satellite antennas, which have a large coverage and large loss of scattering, they constitute a subscriber network with a small loss, and high-speed communication optical fiber cables are connected to the bus bar So that it can be linked to the network.

The Maritime Port serves as a relay base between the sea port and the seashore, and is equipped with a submerged and floating diving tank to protect it from danger such as typhoon or red tide. Using a new concept of tidal power generator utilizing the features of the sea floor topography and water, we were able to produce electric power through the rich wind and sunlight of the country. In addition, there is a sufficient distance from the beach to ensure a clean water quality, a circle farm for aquatic products such as an abalone, a line farm for seaweed, oysters, auricula, etc., a seabed farm for fish Respectively.

The Coastline has provided the ability to connect the power and communications networks of the Pyeongtaek and Seomyeon stations to existing offshore power and communications networks. In addition, it is equipped with a wind farm, solar power, water turbines, and a seaside farm for the production of aquatic products, because it can easily acquire windy and abundant water close to the ocean.

In the year, we introduced a new method to make the structures of wind turbine blades, rotors, stators, generators, etc. light and durable, and to interconnect the horizontal and vertical blades to create rotational force in the upward airflow Structure.

The main part of the present invention is to utilize the deep water depth and water characteristics of the seabed so as to install piping on the sea bed, to allow water to flow in and out, and to make the water flow continuously in the pipeline, Invented a new concept tidal generator.

First, the infinite repeating tidal generator that produces high quality power at low cost is realized by connecting buoyancy characteristics of water to one side, gravity, acceleration force and low resistance characteristics of water and wheel on one side.

In addition, by incorporating the transportation function into the moving body in the piping, the reciprocating hose tidal generator capable of providing safe transportation means in a dangerous environment such as a typhoon through the tidal generator is realized.

In addition, water turbine generators that produce high-efficiency power by utilizing the energy source by the height of water and the energy source by the water flow are implemented, .

According to an aspect of the present invention, it is possible to produce stable and high-quality electric power by interconnecting and controlling renewable energy sources of water, sea, and beach by communication lines.

In addition, it is possible to develop a communication resource of a gap, solve the resource exhaustion problem of the existing communication system, and provide a high quality communication service.

In addition, we have developed a marine aquaculture farm to produce and supply clean aquatic products, and we can achieve automation of fisheries farms by combining power and communication technology.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an incision front view and a side view showing a communication terminal according to an embodiment of the present invention; FIG.


2 is a cut-away plan view, front view, and side view showing a communication open space according to an embodiment of the present invention.


3 to 8 are an incision front view, a side view, and a plan view showing a marine elevation in a communication year according to an embodiment of the present invention.


4 to 8 are a cutaway front view and a plan view showing a coastline in a communication year according to an embodiment of the present invention.


5 is a cutaway front view, side view, and plan view of a tandem wind turbine according to one embodiment of the present invention.


6 to 7 are an incision front view, a side view, and a plan view showing a tidal generator according to an embodiment of the present invention.


4 to 6 are an incision side view and a front view showing an airstream generator according to an embodiment of the present invention.


FIG. 5 is a front view illustrating a method of making a structure according to an embodiment of the present invention. 1 to 8 are a cutaway side view, a front view and a plan view showing a method of installing and operating a stanchion according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

In the present invention, a kite is a broad concept that refers to a structure that is connected to a connection body such as a string, a cable, a pipe, or a column to perform functions such as power generation, communication, and fisheries.

In the present invention, the oceans are places where the water surface is wide, and include both fresh water and salt water.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an incision front view and a side view showing a communication terminal according to an embodiment of the present invention; FIG.

The communication line of the present invention is located at least one of the marine and marine connected areas and is located in the sky and is located at a water level (10 to 17) for generating electric power, at the water surface and below the water level, (20 to 35), at least one beachfront (40 to 45) that is located on the ground and produces at least one power and aquatic products.

2 is a cut-away plan view, front view, and side view showing a communication open space according to an embodiment of the present invention.

In order to utilize the high-quality wind power and the solar energy resources in the sky above, the float 10 of the present invention floats to at least one of the wind and the gas, And at least one electric power generator 15, 80 to 87 and communication equipment 16 for mounting at least one communication equipment 16 and float by the wind, 13, and a support string 14 connecting the main body and the bus bar. For extension and stability of the stator, a pair structure, a horizontally adding structure, a vertically adding structure, A helium controller 17 for controlling the height of the main body, a bus bar 50 having at least one optical cable connected to the at least one of the air duct and the beach bar, Evacuation, at least one maintenance And maintaining at least one line (51).

3 to 8 are an incision front view, a side view, and a plan view showing a marine elevation in a communication year according to an embodiment of the present invention.

The marine vessel of the present invention has a floating body 20 for buoyancy floatation and a diving tank for diving by inflow and discharge of water to utilize the resources of clean and abundant water below the water surface, 26, 27, a power generation 24, a communication 28, a column 21 for performing at least one connection, an upper plate 22 connecting the main body and the column, a lower plate 23, , A solar generator (29) mounted on at least one of the tidal generators (60 to 77), the column support rods (25) and the support rods (46) A circle farm 33 containing at least one body, a column and a support for producing surface-attached aquatic products such as abalone and turban, a line farm 31 connected to a line for producing aquatic products such as seaweed and sea tangle, A three-dimensional undersea farm 30 for producing aquatic products And an extension unit 100b, 100b, 100c, 100m, 100m, 100m, 100m, 100m, 100m, 100m, 100m, 100m, 100m, 100m, 100m, 100m, 100m, 100m, 100m, (100 to 102a), wise (100 to 102b), tee (100 to 102c), straight (100 to 102d), cross (50, 52, 53, 54), at least one of which is connected to at least one of an open channel, an open channel, a maritime channel and a beach channel, and an automatic feeder (35) for remotely feeding food to fish.

At least one of the tidal power generators 60 and 61, the column 21 of the marine column, the support pedestal 46 and the machining line 54 is provided under the main body 20 of the marine column and the wind power generators 80 to 87, At least one solar power generator 29 is installed on at least one of the support rods 25 and 25 and supplies power to the power system on the land via bus bars 53 and 54 connected to the windshield .

4 to 8 are a cutaway front view and a plan view showing a coastline in a communication year according to an embodiment of the present invention.

The beach yard of the present invention comprises a main body 40 of a beach yard which performs at least one of power generation and aquatic life utilizing the abundant wind and water resources of the beach, a connecting plate 42 of a beach yard connecting the main body and the main body, , And a pillar (41) of the beach which performs at least one of communication, connection and connection.

Wind turbines 80 to 87 mounted on at least one of the pillar 41 of the beach barrel, the support bar 25, the support bar 46 and the working line 54, the connecting plate 42 of the beach barrel, the support bar 25, The auric generators 70 to 77, which utilize a solar energy generator and water energy sources, and a flow energy source, mounted on at least one of the supports 46, produce electric power and supply it to the offshore power system.

The water filled in the body (40) of the seaside flats is utilized not only for the production of electricity but also as a seaside farm which smoothes the supply of oxygen by the circulation of water, and produces healthy seafood.

An expansion unit 100a-e having a large size 100a-e, a small nature 101a-e and a connecting body 102a-e, ), A wedge shape (100 to 102b), a tee shape (100 to 102c), a straight shape (100 to 102d), a cross shape (100 to 102e), an extension structure connected to at least one of these pairs, (103) or at least one of the upper and lower flames having different elevations to the topography, and the recycle piping (44) for reusing the water of the lower body as the upper body.

5 is a cutaway front view, side view, and plan view of a tandem wind turbine according to one embodiment of the present invention.

The wind turbine generator used in the yaw generator is composed of at least one of a bus bar 50, a marine column 21, a beach column 41, and a machining line 54 so as to generate a rotational force by multi- And a wing rotator 82a with wings of a wind power generator mounted thereon is attached and the vertical wing 80 and the horizontal wing 81 are mounted on the wing fixture 86, And the upper radius of the vertical vanes 80 is larger than the lower radius of the vertical vanes 80 and the upper and lower connection angles of the vertical vanes 80 are different from each other. A pair of wings, a pair of wings, a repetition of these, and a combination structure thereof (80, 81) for increasing the efficiency of power generation; A wing gear 82b having a gear structure at the end of the wing, A pair of gear worm gears 82b, a pair of gear teeth 89 for balance and power generation, and a generator stator 88 for accommodating a plurality of generation opportunity electrons as one winding at least One.

6 to 7 are an incision front view, a side view, and a plan view showing a tidal generator according to an embodiment of the present invention.

The tidal generator of the present invention is characterized by a moving body 64 which buoyantly ascends and descends by gravity to make a water flow in water and is connected to the piping 60, 60a to 60h, aberrations 70 to 77 for power generation mounted on the water discharge port 63 of the pipe, a moving body equipped with a wing for power generation on the outside, and a wheel 69f for power generation, At least one.

The infinite repeating tidal power generator of the present invention has a waterproof structure for the moving body 64 for buoyancy of the rising portion of the piping and a wheel 65 mounted on each surface of the moving body for reducing the resistance of the piping, 60b, 60d, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60f, 60b, 60c, 60e, 60d, 60d, 60d, 60d, 60d, 60d, 60d, 60d, A structure in which the guide frame 69h of the outer wing of the moving body rotates 180 degrees at the rising portion, a structure in which the outer frame 60e, 60e, 60f, 60g, 60h, (B) at least one line connecting the coastline and the marine vessel; and (b) Transverse direction, and piping 60 and 61 connected to the marine vessel and serving as an anchor.

The reciprocating tidal generator of the present invention is characterized in that the moving body is pulled in at least one direction by a pulling cord 68. The wind power generators 70 to 77, the wind power generator 43, (69 g to h), which is reciprocatingly driven to at least one of the first and the second wind turbine blades (43, 43) and mounted on the outside of the power generation blades, floats with buoyancy, and has a streamlined structure to reduce the resistance of water and air, A pair of gears 60c and 60d, a pair of V types 60e and 60f, and a pair of teeth 60g and 60h in consideration of the characteristics of the topography, , A structure having at least one combination of these elements, a bus bar connecting at least one of a water hole, a coast line, and a marine vessel, a moving body 64 whose longitudinal direction is longer than the transverse direction, Structure, passenger, cargo and a combination of these at least one transport vehicle A rail 69d mounted in the piping for improving the moving quality and a gear 69e mounted on the rail for power generation. The moving vehicle wheel corresponding to the rail 69e is connected to the generator gear by a generator, A structure for laying a bus bar for transmission, a moving body 64 connected to each other by at least one connector 67 for increasing the stacking capacity, at least one pipeline 60, 61 connected to the marine vessel and serving as an anchor, .

4 to 6 are an incision side view and a front view showing an airstream generator according to an embodiment of the present invention.

The water turbine generator of the present invention is characterized by generating at least one of a high energy source of water and a flow energy source of water to generate power to generate electric power. Water turbines (71, 72) having a slope to assist the lowering of water, A water gun 71 and 72 for increasing the flow speed and a small inlet and an outlet for decreasing the flow speed, water guns 71 and 72 for adjusting the angle of the outlet to assist the water turbine rotation direction, a water hammer gear collection 75 ), Water turbine blades (73, 74) having a water storage space at the end for increasing the resistance of water, a water turbine gear (70) having a gear structure at the end of the wheel for increasing power generation efficiency, A pair of gears 76 and a plurality of rotors 76 are connected to a single winding stator 77 in order to balance and improve the power generation efficiency Accommodating feet It is a group comprising at least one.

FIG. 5 is a front view illustrating a method of making a structure according to an embodiment of the present invention. 1 to 8 are a cutaway side view, a front view and a plan view showing a method of installing and operating a stanchion according to an embodiment of the present invention.

The method of making, installing and operating the material of the present invention can be used to make a frame 90 suitable for the model, to make the connection, to make the connection 94 in the frame, to make the surface area, , Bones (91 and 92) are formed by a method including at least one of a pair, a repetition, and a combination thereof, and the surface (93) including at least one of the cross- 20, 40, columns 21, 41, connecting members 42, 102, 103, upper or lower plates 12, 13 (not shown), at least one heat insulating material, 22, and 23, support rods 34 and 69, farms 33 and 40, a moving body 64, a pipe 60, a generator 15, 24, 43, 70 to 77 and 80 to 87, (80-89), a photovoltaic generator (12-12), and a solar power generator (12-17) for power generation and communication, ), Communication equipment (16 (80 ~ 89), photovoltaic generator (29), tidal generator (60 ~ 69), and tidal generator (20 ~ 29) for installation and operation method of installing at least one (80-89), a solar power generator (40-45), and a solar power generator (40-45) for installation and operation of installing at least one communication equipment (28) and aquaculture farm (20 ~ 20) for the installation and operation method of mounting at least one water turbine generator (29), a water turbine generators (70 ~ 77), communication equipment and aquaculture farm (40) (10 to 17) for the installation and operation method of connecting at least one of the beach lines (29 to 29) and the beach lines (40 to 45) to each other by the bus lines (50, 52, 53 and 54) For the installation and operation method of connecting at least one of the openings 20 to 29 and the openings 40 to 45 to the offshore power system and the communication system and for the light and robust small power generation system, these A method of installing and operating the wind turbine generators 80 to 89 by the combination of the wind turbine generators 80 to 89 and a method of installing and operating the moving robot 64 that buoyantly descends and descends by gravity for the flow of water used for the tidal power generation, To prevent the danger such as typhoon and to maintain it, it is necessary to connect the bus cord (50) of the sea trench (10 ~ 17) to the sea trench (20 ~ 29) or the sea trench (40 ~ 45) To connect the maintenance line 51 of the water supply line 51 to the beach openings 40 to 45 and to open the water supply openings 10 to 17 to the beach by the maintenance line 51 of the beach openings 40 to 45, (10 ~ 17) for the installation and operation method of returning to the original position, the installation and operation method of tripling the power generation system with the ground, the sea and the ball for the high quality of the power system and the prevention of the power failure, The wireless equipment 16 is mounted and connected to the wired equipment 28 in at least one of the maritime stations 20 to 29 and the beach stations 40 to 45 (30 ~ 35) for diving and injuring with diving and floating marine vessels (20 ~ 29) for the production and installation of underwater marine products, .

10 body
11 Mothership line connection
12 Top plate of solar collector with solar generator
13 bottom
14 Support line
15 Wind power generator installed on the bottom plate
16 Communication repeater mounted on the bottom
17 Helium controller mounted on a floating roof


20 Body of the marine vessel
21 Pillars of the Sea
22 top of the sea
23 bottom of the sea
24 offshore wind turbines
25-string support
26 Main body of diving diving tank
27 Maritime Columns Diving Tanks
28 Maritime communication repeater
29 Maritime Solar Power Generator


30 sea bottom farm
31 Maritime line farms
32 Connections in the maritime year
33 Marine circle farms
34 Marine submarine farm support
35 Off-shore submarine farm automatic feeder


40 body of the beach Yan
41 pillar of the beach Yan
42 Connecting plate of beach bar with solar generator
43 Seaside Wind Power Generator
44 seawater recirculation piping
45 Seaside pillar connector
Support of 46 kites


50 base line
51 maintenance line
52 Maritime annual bus line
53 Maritime flags and beaches Annual moth line
54 Work line supporting wind turbine


60 Tidal power generator piping
60a Ribbon type down pipe
60b Ribbon Type Rising Piping
60c gear type down pipe
60d gear-type riser
60e V type down pipe
60f Type V riser piping
60g O type down pipe
60h O-type rising pipe
61 Tidal generator connection
62 Water inlet of tidal generator
63 Water outlet of tidal power generator
64 Moving body of tidal power generator
65 Wheel of a moving object
66 Spherical weight in the moving body
67 Connecting body of moving object
68 Traction line of moving object
69a Gear type support
69b Type V support
69c type support
69d Rail in piping
69e Gears mounted on the rails
69f Gears mounted inside the moving body
69g Wing mounted on the outside of the moving body
69h Guide frame of external wing of moving body


70 aberration generator aberration gear
71 Submergence of water turbine generator
72 Water turbine of water turbine generator
73 aberration wing upper part of the aerator generator
74 aberration generator aberration wing bottom
75 aqua water collection
76 Generator of wind and water turbine generators
77 Generator of wind and water generators


80 Vertical wing of a wind turbine
81 Upper horizontal wing of wind turbine
82a Wing Rotor of Wind Power Generator
82b Pairs of wind power generators Wing gear
83 Lower horizontal wing of wind turbine
84 Generator of wind power generator
85 Horizontal wing support of wind turbine
86 Wind generator wing fixture
87 Stator bearings of wind power generators
88 Single-winding generator stator for multiple rotors
89 Pairs of wind turbine generators Gear gear


90 Frame of material
Horizontal bones of 91 material
92 vertical bones of material
93 Carbon fiber attached to the bones of the material
94 Connector


100a part of the elbow
100b < / RTI >
100c T-shaped part
100d
100e
101a elbow chair
101b and a chair
101c T-Shirt
101d straight person
101e cruciform
102a elongate connector body
102b < / RTI >
102c < / RTI >
102d linear connector
102e crisscross connector
103 Vertical connector of the beach Yan

Claims (10)

In at least one of the marine, marine,
Located in the sky, generating electricity;
A water column located at and below the water surface and producing at least one power and aquatic product; And
A beach yard which is located on the ground and produces at least one electric power and aquatic products;
And at least one communication link. The method according to claim 1,
A float for floating to at least one of wind and gas,
A top plate for mounting at least one power generation and communication equipment and floating by the wind,
A bottom plate for mounting at least one power generation and communication equipment and floating by the wind,
And a support string connecting the body and the bus bar,
A body made of at least one of a pair of structures, a horizontally adding structure, a vertically adding structure, a repetition structure thereof, and a combined structure thereof;
A helium controller for controlling the height of the main body;
A bus bar with a fiber optic cable connected to at least one of the sea tide and beach tide; And
A maintenance line for lowering the stowage, evacuating, and maintaining at least one;
At least one < / RTI > The apparatus according to claim 1, further comprising: a floating body for floating by buoyancy;
A diving tank for diving by introducing and discharging water,
A column that performs at least one of power, communication, connection and connection,
And at least one of a top plate, a bottom plate, and a support string connecting the main body and the column,
A tidal generator for producing electric power in the position or flow of water;
A wind turbine installed on at least one of a column, a support, and a machining line for power generation;
A photovoltaic generator mounted on at least one of a support column and a support for power generation;
A circle farm containing at least one body, column, and support for producing a surface-attached aquatic product;
A line farm connected to a line to produce a line attached aquatic product;
A three-dimensional submarine farm to produce fish marine products;
An extension unit which is located at the center and has a large size and a small size, and is composed of a connecting body;
An extension structure connected to at least one of the elongate, wai, tee, straight, cross, pairs, repeats, and combinations thereof for extension of the keel;
A bus bar with at least one connection to the sea, ocean, and seaside; And
An automatic feeder that feeds fish remotely;
At least one < / RTI > 2. The fuel cell system according to claim 1, further comprising: a main body for performing at least one of power generation and water-
A connecting plate for connecting the main body and the main body,
And a column for performing at least one of connection, generation, communication, connection and connection.
A wind turbine mounted on at least one of a column, a support string, a support, and a machining line to produce power;
A photovoltaic generator mounted on at least one of a connecting plate, support rods, and supports to produce power;
A water turbine generator for generating electric power at a water height difference between the main body and the main body;
A beach farm producing aquatic products with water filled in the body;
An extension unit which is located at the center and has a large size and a small size, and is composed of a connecting body;
An extension structure connected to at least one of the elongate, wai, tee, straight, cross, pairs, repeats, and combinations thereof for extension of the keel;
For extension of the kite, a vertical connection or topography with different elevation and lower elevation; And
A recirculation pipe for reusing water in the lower body as an upper body;
At least one of which is a beach yard. The method according to claim 1,
In order to make rotational force in multi-directional wind,
Centered on at least one of a bus bar, a column, and a working line,
A wing fixture with bearings mounted thereon,
A wing rotating machine on which a wing of a wind power generator is mounted is attached thereto,
Connecting the vertical wing and the horizontal wing to each other,
The upper radius of the vertical wing is larger than the lower radius of the vertical wing,
And the connecting point angle of the vertical wing is different from that of the vertical wing,
In order to improve wind power efficiency, pairs of bus bars, repetitions of these, and supporting lines formed by their combination;
For the expansion of the wing, a pair of wings, a repetition of them, a structure of their union;
A wing gear having a gear structure at an end of the wing for increasing power generation efficiency;
A pair of wing gears for improved balance and power;
Generator gears in pairs for improved balance and power; And
A generator stator that accommodates a plurality of power generation opportunity electrons in one winding;
At least one wind turbine generator. Characterized by a moving body which ascends by buoyancy and descends by gravity in order to make a flow of water in water,
Piping through which water is introduced and discharged;
Water turbine installed at the water outlet of the pipe:
A moving body having wings for power generation mounted on the outside; And
A moving body having wheels installed therein for power generation;
At least one tidal generator. The method according to claim 6,
For the buoyancy of the piping rising part, the moving body is made to have a waterproof structure,
In order to reduce the resistance of the piping, wheels are mounted on each side of the moving body,
At least one round weight is mounted inside the moving object hermetic enclosure so as to cause downward displacement at the descending portion of the pipe,
The rising portion of the pipe and the falling portion of the pipe are connected to each other for the repetition of the movement,
A structure having at least one of a ribbon shape, a gear shape, a V shape, an oval shape, a pair of these, a repetition of these, and a combination thereof in consideration of the characteristics of the terrain;
A structure in which the guide frame of the outer wing of the moving body rotates 180 degrees at the rising portion;
A moth line connecting at least one of the seaside and marine seas;
A structure of a moving body whose longitudinal direction is longer than the lateral direction to raise the lower force; And
Pipes connected to sea lanes and serving as anchors;
The tidal generator comprising: at least one tidal generator; The method according to claim 6,
Characterized in that the moving body is pulled in at least one direction by a pull string,
A moving body which is reciprocated to at least one of a beach airstream generator, a wind power generator, and a solar generator,
A wind turbine having a streamline structure to mount a bus bar, float as a buoyant force, reduce the resistance of water and air, and mount a power generating blade below the external water surface;
A structure having at least one of a gear type, a V type, an oval shape, a pair of these, a repetition of these, and a combination thereof in consideration of the characteristics of the topography;
A moth line connecting at least one sea, ocean, and ocean;
A structure of a moving body whose longitudinal direction is longer than the lateral direction to raise the lower force;
A passenger, a cargo, or a combination thereof;
A rail mounted in the piping for improving the moving quality;
In order to generate power, a gear is mounted on a rail, a mobile wheel corresponding to the gear is used as a gear, a generator gear is connected to a generator, and a bus bar for transmission is installed.
A moving body connected to each other by at least one connecting member to increase a loading capacity; And
Pipes connected to sea lanes and serving as anchors;
At least one of the first and second motors. The method according to claim 1,
The atmospheric energy source of water, and the at least one flow energy source of water to produce a rotational force to produce electric power,
A water gun with a slope to assist the lowering of water;
A water gun which has a large inlet and a small outlet to improve the water flow rate;
A water gun that adjusts the angle of the outlet to assist the auricle gear rotation direction;
Aquarius gear collection to collect the flow of water;
An aquatic wing with a water storage space at the end to increase water resistance;
An aberrational gear having a gear structure at the end of a wheel to increase power generation efficiency;
Aberrational gears in pairs for improved balance and power;
Generator gears in pairs for improved balance and power; And
A generator that accommodates a plurality of rotors in a single winding stator;
At least one of the atmospheric air and the atmospheric air. The method according to claim 1,
To create a framework suitable for the model,
For the connection, make a bony connection on the frame,
In order to make the surface area, a bone line is formed in such a way as to include at least one of a line, a net, a plate, a pair of these, a repetition of these,
Wherein at least one of a paste, a fiber, a filler, an insulator, a heat insulating material, a waterproofing material and a flame retardant is attached to a face including at least one of the end faces and both faces,
A method of constructing a structure including at least one body, a column, a connector, an upper plate or a lower plate, a support, a farm, a moving object, a pipe, a foot, a communication repeater and a bus bar;
A method for installing and operating at least one wind turbine generator, a solar generator, and a communication device in a water column for power generation and communication;
Installation and operation methods for installing at least one wind turbine, solar generator, tidal generator, telecommunication equipment and aquaculture farm in maritime for power generation, communication and fisheries;
Installation and operation methods for installing at least one wind turbine, solar generator, water turbine generator, telecommunication equipment, and aquaculture farm in the beach for electricity generation, communication and fisheries;
For power and telecommunication systems, installation and operation methods of connecting at least one of the open sea, the open sea and the open sea to each other;
A method of installation and operation for connecting at least one of a power cord, a marine cord and a beach cord to at least one power system and communication system on the land, for a power and communication system;
For a light and robust mini-power generation system, a pair of routed wires, repetition of them, and the combination and installation and operation method of supporting the wind power generator;
A method of installing and operating a moving body that rises by buoyancy and descends by gravity for the flow of water used for tidal power generation;
To prevent the danger such as typhoons and to maintain maintenance, connect the ship's line to the maritime or beach pylon, connect the maintenance line of the sea pylon to the beach pylon, and if necessary, Installation and operation methods to return to the original position after evacuation or work;
Installation and operation method to triple the power generation system with the meat, the sea and the ball for the high quality of power system and prevention of power failure;
Installation and operation method of installing wired equipment in at least one of maritime and coastal walks in conjunction with wireless equipment installed in the sea for the broadband communication; And
For the production of seabed aquatic products, how to install and operate aquaculture farms that allow diving and injuring with diving and floating sea lanes;
A method for manufacturing, installing and operating a material for marine communications including at least one.

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