KR20130083230A

KR20130083230A - Power generation system for hydro and gravity use to moving-frame in the orbital circulation

Info

Publication number: KR20130083230A
Application number: KR1020120003892A
Authority: KR
Inventors: 박성수
Original assignee: 박성수
Priority date: 2012-01-12
Filing date: 2012-01-12
Publication date: 2013-07-22

Abstract

The present invention relates to an infinite track circulation device and its use for producing power in water resources
The current method of using the free fall is to accumulate dams or dikes in the direction perpendicular to the direction of the water, to cut off the flow of natural ecosystems, and cause excessive earth pressure to cause earthquakes in the surrounding area. In the situation where we are gradually facing opposition from environmental groups and local residents due to damage such as adversely affecting the climate.
The present invention produces power in such a way as to form a minimum structure in the same direction as the water's progression to sustain the flow of water and minimize the impact on the natural ecosystem.
In order to use the earth's flow water resources and gravity, a power frame device and a generator that interlocks with the connecting plate gears are made by manufacturing a trapezoidal orbital circulation frame and a moving frame formed by moving plate plates and connecting plate gears connecting them. As a mechanism configuration to combine
It is a nature-friendly power generation facility that uses the flow of water resources as it is. It is an efficient power generation facility with various utilization and small utilization modules, medium-scale power generation facilities, and large-scale power generation vessels. It is a sustainable endless clean power generation system with no need for effects.

Description

POWER GENERATION SYSTEM FOR HYDRO AND GRAVITY USE TO MOVING-FRAME IN THE ORBITAL CIRCULATION}

The present invention relates to an infinite track circulation apparatus and its use for producing electric power in water resources.

Previous methods of generating electricity from water resources have used drop-off methods, such as dams in rivers or tidal flats in coastal tides.

The present invention comprises an orbital circulation element in a trapezoidal orbital circulation frame to form an infinite orbital circulation device using the flow of water resources and a drop of gravity, and generates a power system by combining a power conversion device and a generator in the orbital circulation device. And the technology used to apply it

The method of using a free fall creates dams or embankments in a direction perpendicular to the direction of water flow, which cuts off the flow of natural ecosystems, and causes excessive earth pressure to cause earthquakes in the surrounding area, while broadband reservoirs adversely affect the local climate. The situation is gradually facing the opposition of environmental groups and local residents due to damage such as giving.

Therefore, the present invention forms a minimum structure in the same direction as the direction of the water to produce power in a manner that continues the flow of water and minimizes the impact on the natural ecosystem,

In order to use the earth's flow water resources and gravity, a trapezoidal orbital circulation frame is manufactured to mount a moving frame formed by moving plates, which are orbital circulation elements, and connecting plate gears connecting them, and a power conversion device and a generator engaged with the connecting plate gears. Mechanisms to combine

It is a nature-friendly power generation facility that uses the flow of water resources as it is, and has various uses such as small power generation modules, medium-sized power generation facilities, and large-scale power generation vessels. There is.

Figure 1
Figure 2 Moving Plate
Third degree track frame
4th uniaxial moving track frame
The fifth degree multi-axis moving track frame
The sixth degree trajectory frame and orbital circulation box
Figure 7 hydropower mobile frame track circulation power generation module diagram
8th circulating kinetic energy system diagram
9th generation system diagram
The tenth power generation schematic
11th to 14th degree launch
15-degree hydropower moving frame track circulation combined cycle module

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an attached view of the top view, from the top view to the peace of mind, the pulley assembly drawing, the welding drawing and the plate gear drawing.

The peace bolt 100 is used to connect each device to the coral connection

The pulley 1200 is mounted on the pulley shaft bolt 200 in the pulley shaft 1220 to be inserted into the pulley shaft groove 1103 of the movable plate 1100 and fixed with a nut 210 at an appropriate position of the movable plate 1100. It is settled in the moving plate groove 1102 and moves in the track rail 2101 of the track frame 2060

Welding coupling 300 is a coupling method that is useful in the present invention that is used to bind and join each plate or device in a butt, lattice, cross, T-shape, the fixing and mounting and coupling is not specially described weld welding (300) I assume

The plate gear 1300 is formed with a gear gear 1310 at the top and bottom, and the plate gear gear 1320 is symmetrically formed left and right on the left and right sides of the upper and lower centers. Engaging with the gear shift gear 5111 of the power generation system 5000 and the power switching device 5100 to transfer the movement circulation frame kinetic energy 500 of the movement circulation frame 1000 to the generator 5200 and the respective movements. By connecting the plate 1100 serves to configure the mobile circulation frame (1000).

2 is a moving plate diagram, which shows a uniaxial movable plate 1 degree, a uniaxial movable plate 2, and a multi-axial movable plate from the top view.

As shown in the drawing, the sunrise moving plate 1 1110 and the sunrise moving plate 2 1111 have a flat dome in the front and a round dome in the rear, and a plurality of water holes 1104 are formed in a line at the center and both sides of the front side The plate gear piece 1105 is formed in the upper and lower moving plate grooves 1101 are formed in the upper and lower centers, and the moving plate rails 1102 protrude from the center of the moving plate grooves 1101 and the moving plate grooves 1101. In the shape that the pulley shaft grooves 1103 are formed in the center of both sides of the sides, respectively.

The pulley shaft groove 1103 serves to fix the nut 210 by inserting the pulley shaft bolt 200 mounted on the pulley 1200, and the movable plate rail 1102 is a load of each sunrise moving plate 1 1110. By preventing the refraction of the pulley shaft bolt 200 so that the position of the movement circulation frame center line 1050 is within the error range, the plate gear 1300 circulates a constant track, and the movement plate rail 1102 has a movement plate rail. The cover 1106 is installed and replaced when worn, and serves to prevent direct wear of the moving plate rail 1102. The moving plate groove 1101 is equipped with a pulley 1200 so that each sunrise moving plate 1 1110 is orbited. It moves the frame 2060 and the influent water 430 impacts the sunrise moving plate 1 (1110), part flows to the side, and part flows to the water hole (1104), the back of the sunrise moving plate assembled A water channel is formed which flows into the water hole 1104 of 2 (1111). 430 and to serve to facilitate the movement of each movable plate 1060 and plate gear piece sphere 1105 is consistent with the plate gear opening (1320) of the plate gear 1300 and equipped with coupling pieces bolt 100

Sunrise moving plate 1 (1110) and sunrise moving plate 2 (1111) intersecting and successively combined to produce the underwater frame 1010, the energy moving direction high moving frame (1021) and energy reverse high moving frame (1022) The high moving frame (1020) and the water moving frame (1030) and the low moving frame (1040) to be divided into assembling and interconnecting uniaxial moving frame (1400) and the continuous single axis moving frame (1400) By mounting on the frame 2510 to produce a uniaxial movement circulation frame 1410

The pulley 1200 and the plate gear 1300 are mounted on the multi-axis moving plate 1120 in the same manner as described above to assemble the multi-axis moving frame 1500 and the multi-axis moving frame 1500 is mounted on the multi-axis orbital circulation frame 2610. To produce a multi-axis mobile circulation frame (1510).

The height of the moving plate 1060 is the height from the outer end to the end and the center of both track rails 2101 to the center of the track rail 2060 of the manufactured track frame 2060 and the width is the track beam of the track frame 2060 And make it half the inner width of 2410

The outer diameter of the pulley groove 1210 of the pulley 1200 is less than the distance from the inner end of the moving plate groove 1101 of the moving plate 1060 to the inner end of the track plate 2100 of the track frame 2060 and the pulley groove 1220. Inner diameter of the moving plate 1060 is made less than the distance from the outer end of the moving plate rail 1102 of the moving plate 1060 to the outer end of the track rail 2101 of the track frame 2060 to facilitate the movement of the moving plate 1060. .

3 is a trajectory diagram wherein the top view is a uniaxial raceway diagram and the bottom view is a multi-axis raceway diagram.

The uniaxial track frame 2500 is composed of a uniaxial track plate 2110, the track beam 2200, the outer track plate 2300 and the track side beam 2410

The single-axis orbit plate 2110 having the track rail 2101 protruding in the center portion is fixed to the inside, and the orbital beam 2200 is fixed in the longitudinal direction to the outside of the one orbit track plate 2110, and the track is located outside the track beam 2200. The outer plate 2300 is fixed so that the orbital side beams 2410 are fixed to the upper and lower sides of the outer plate 2300, respectively.

The track rail cover 2101 is mounted on the track rail 2101 to replace the track rail cover 2101 to prevent wear of the track rail 2101 and to move the pulley 1200 of the moving frame 1060 to the track rail 2101. And

The high-orbit frame 2020, which is manufactured by continuously combining the single-axis track frame 2500 in the longitudinal direction and manufacturing the underwater track frame 2010, is divided into the energy progress direction high track frame 2021 and the energy reverse direction high track frame 2022. And the water orbit frame 2030 and the low orbit frame 2040, and assembling and interconnecting to produce a single axis orbit circulation frame (2510)

The multi-axis orbit frame 2600 and the multi-axis orbital circulation frame 2610 is manufactured in the same manner as described above.

The inner height of the track frame 2060 and the track plate 2100 is greater than the height of the moving plate 1060 and the inner width of the track frame and the track side beam 2410 is twice as large as the width of the moving plate 1060. Ensure sufficient underwater track weight (2011) in (2010).

4 is a uniaxial movement track frame 3100 equipped with a uniaxial movement frame 1400 inside the uniaxial track frame 2500 manufactured as a uniaxial movement track frame diagram.

The nut 210 is inserted into the pulley shaft groove 1103 formed in the upper and lower portions of the single shaft moving plate 1 1110 by inserting the pulley shaft bolt 200 mounted inside the pulley shaft bolt 200 to the pulley 1200. The track rail cover 2102 is mounted on the upper and lower track rails 2101 of the uniaxial track frame 2500 and the pulley grooves 1210 formed on the upper and lower portions of the pulley 1200 of the single-axis moving plate 1 1110 and. In accordance with the mounting on the uniaxial track frame (2500) and by slightly moving the uniaxial movable plate 1 (1110) to the upper side to move both nut 210 of the lower pulley 1200 to the outside of the pulley shaft bolt 200 to lower the lower pulley ( 1200 to the single-axis moving plate 1 (1110) and by moving both nut 210 of the upper pulley (1200) to the outside of the pulley shaft bolt 200 to move the upper pulley (1200) to the single-axis moving plate (1100) In order to fix, the uniaxial movable plate 1 1110 and the uniaxial movable plate 2 1111 cross each other and are fixed. 1 1110 and the uniaxial movement track frame in accordance with the plate gear sphere 1320 of the plate gear 1300 in the plate gear piece 1105 formed on the uniaxial movable plate 2 (1111) Assemble 3100.

FIG. 5 is a multi-axis moving track frame 3200 equipped with a multi-axis moving frame 1500 inside a multi-axis track frame 2600 manufactured as a multi-axis moving track frame.

The assembly method is the same as that of FIG.

6 is a trajectory loop and a trajectory loop diagram from the top view of the trajectory loop, the trajectory loop, the trajectory loop and the trajectory loop

As described in FIG. 2, the movement circulation frame 1000 intersects the sunrise moving plate 1 1110 and the sunrise moving plate 2 1111 equipped with the pulley 1200 to be continuously coupled to the plate gear 1300 to be underwater. The high frame 1020 and the high frame 1010 and the low frame 1010 and the low frame 1040, which is made of a moving frame 1010 and divided into an energy moving direction high moving frame 1021 and an energy reverse high moving frame 1022. Fabrication, interconnection, assembling of the uniaxial movement frame 1400 and mounting the continuous uniaxial movement frame 1400 to the uniaxial track circulation frame 2510 to produce a uniaxial movement circulation frame 1410 and multi-axis movement circulation frame in the same way 1510 is manufactured and collectively referred to as the movement circulation frame 1000 through the uniaxial movement circulation frame 1410 and the multi-axis movement circulation frame 1510.

Orbital circulation frame 2000 is composed of a single axis track plate 2110, orbital beam 2200, orbital outer plate (2300) and orbital side beam (2410) assembled in a longitudinal direction continuous, combined A high orbit frame 2020, a water orbit frame 2030, and a low orbit frame 2040, which are divided into an energy progress direction high track frame 2021 and an energy reverse high track frame 2022. ) To manufacture the uniaxial orbital circulation frame 2510 by connecting the track plate inlet 2103 to the track plate 2100 in accordance with the foreign material portion 4110 and the solids portion 4120 of the orbital circulation box 4000 ), Orbital plate outlet 2104 and orbital outer plate inlet 2300 and orbital outer plate inlet 2310 and orbital outer plate outlet 2311 are formed in the same way, multi-axis orbit frame (2600) and multi-axis orbital circulation frame (2610) ) And collectively referred to as orbital circulation frame (2000) through the uniaxial orbital circulation frame (2510) and multi-axis orbital circulation frame (2610).

The moving orbital circulation frame 3000 is manufactured by mounting the moving circulation frame 1000 to the orbital circulation frame 2000, and the moving orbital circulation center line 1050 and the orbital circulation frame center line 2050 and the orbital circulation path are formed in each. The frame center line 3010 will coincide.

The orbital circulation box 4000 is composed of a lower box 4100 and an upper box 4200. The lower box 4200 is divided into a foreign material part 4110 and a solid part 4120, and the upper box 4200 is a balance chamber ( 4210 and the power generation chamber 4220, the center of the lower box 4100 is equipped with a moving track circulation frame 3000 and the upper box 4200 is mounted inside the moving track circulation frame 3000

In the power generation chamber 4220 of the upper box 4200, a power generation system 5000, a hydrogen manufacturing machine 620, and a balancing device 6100 of the anchoring system 6000 are installed, and an air port 6300 of the anchoring system 6000 is externally installed. When the balance chamber 4210 of the upper box is installed and the pump 6110 of the balancing device 6100 is operated, the inflow water 430 is introduced into the external pipe 6130 through the pump 6110 and the nebu pipe 6120. 4210) flows into or out of the orbital circulation box (4000) to stop at the appropriate level 400

The foreign body portion 4110 of the lower box 4100 is slightly larger than the width of the moving trajectory circulation frame 3000 and the solids part 4120 is twice the width of the moving orbital circulation frame 3000, so that the orbiting circulation 4000 When the proper position and altitude are reached, the anchorage is anchored by the anchoring device 6200 of the anchoring system 6000 installed on the top of the foreign body 4110, and the high water 423 and the low tide 424 intersect at sea, and thus the water flow direction 420. Even if this is changed, the foreign body portion 4110 orbits the orbital circulation 4000 according to the water flow direction 420 based on the anchor 6230 settled on the underwater ground line, so that the solid portion 4120 is always at the foreign body portion 4110. ) Will allow water to flow in and out.

The lower box 4100 is composed of a lower box plate 4101 and a lower box bottom plate 4102 so that the lower box plate 4101 has an underwater track frame 2010 of the moving track circulation frame 1000 as illustrated in the drawing. The foreign material inner plate 4112 and the solid material inner plate 4122 are fixed to the outer wall of the lower part plate 4101 and the foreign material part 4110 and the solid part 4120. The lower base plate 4102 is fixedly coupled to the upper and lower empty spaces, and the foreign matter protection net 4111 and the dirt protection net 4212 are installed outside the foreign material part 4110 and the junk part 4120, so that the underwater track of the foreign matter Blocking the inflow of the framework (2010)

The balance chamber 4210 of the upper compartment 4200 is composed of a balance chamber inner plate 4201 and a balance chamber outer plate 4202 to secure an inner space of the balance chamber 4210 and to maintain stability of the orbital circulation box 4000. The balance chamber pillar 4211 is installed to match the track beam 2200 of the track frame 2050, and the power generation chamber pillar 4221 is installed inside the power generation chamber 4220 so that the load of the moving track circulation frame 3000 is balanced. Through the prism 4211 and the power generating prism 4221, it is transmitted to the water 410 to promote overall safety, and the width of the upper box 4200 is equal to the maximum height of the trajectory circulation frame 3000 and the length is The length of the moving track circulation frame 3000 is longer than the length of the foreign material 4110.

FIG. 7 is a diagram illustrating the hydrodynamic moving frame orbital circulation power generation module. The mobile circulation frame 3000, the orbital circulation box 4000, the power generation system 5000, and the anchoring system 6000, which are manufactured as in FIG. And installed is a hydrostatic moving frame orbit circulating power generation module (7000).

FIG. 8 is a schematic diagram of the kinetic energy system of the mobile circulation system. In order to obtain an efficient mobile circulation frame kinetic energy 500, the moving orbital circulation frame 3000 includes an underwater orbital frame 2010, a high orbital frame 2020, and a water orbital frame 2030. And it is divided into a low trajectory frame (2040) and the mobile circulation frame 1000 is also divided into an underwater moving frame (1010), a high moving frame (1020) and a water moving frame (1030) and a low moving frame (1040) It calculates the movement circulation frame kinetic energy (500)

In order to manufacture a hydropower moving frame orbit circulating power generation module 7000 for the efficient electrical energy (511) production of the power generation system (5000), a moving orbital circulation frame (3000) satisfying the following requirements is designed.

First, determine the quantity of power energy (511) to be produced by investigating the flow rate, flow rate and depth of the water in the installation place.

First, the transverse weight of the underwater trajectory frame (2010) than the sum of the weight of the weight of the underwater mobile frame (1011), high mobile frame weight (1021), generator rotor weight (5210) and generator electromotive force (5220) The value of the underwater track frame weight (2011), which is the product of the volume multiplied by the height of the height, multiplied by the unit weight of water, largely sets the specification of the underwater track frame (2010).

Second, the underwater frame (1010 ') or the water frame kinetic energy (1030') value is higher than the value of the high frame kinetic energy (1020 ') of the underwater frame (1010) and the water frame (1030) Set the length and the slope and the height and the slope of the high frame 1020.

Third, underwater frame motion (1010 ')-high frame motion (1020') + water frame motion (1030 ') + low frame motion (1040') = surplus energy (510) The movement trajectory circulation frame 3000 having a value obtained by converting the opportunity electron weight 450 into energy + a sum of the generator electromotive force 5220 is set.

Fourth, the balance device 6100 and the anchoring device 6200 of the anchoring system 6000 are adjusted to raise and lower the level line 400 of the underwater track (2010) by adjusting the altitude of the hydrostatic track orbit circulation power generation module (7000). Equipped with an anchoring system 6000 that takes the value of the circulating kinetic energy 500 required by controlling the flow rate 520 and the flow rate 521 of the underwater track frame 2010 to maintain a constant electric energy 511 value. Manufacture of underwater gravity frame orbit circulation power generation module (7000)

Fifth, since the inner width of the trajectory circulation frame 3000 is larger than the width of the moving plate 1060, the standard is set so as not to interfere with the flow of the flow velocity 520 inside and outside of the underwater trajectory frame 2010.

Underwater gravity moving frame orbit circulating power generation module (7000) based on the design and manufacture of the moving orbit circulation frame 3000 and the moving circulation frame 1000 to satisfy the above five elements

The value of the moving circulation frame kinetic energy 500 of the moving circulation frame 1000 shown in the drawing is the underwater moving frame kinetic energy (1010 ')-the high tilt moving frame kinetic energy (1020') + water moving frame kinetic energy (1030). ') + Low moving frame kinetic energy (1040') = in the formula of surplus energy (510)

+ Underwater frame kinetic energy (1010 ') = Underwater track frame weight (3011) x Flow rate (520) and Underwater frame weight (1011) x Flow rate (520)

-High tilt frame kinetic energy (1020 ') = high frame weight (1021) x gravitational acceleration (530) x high orbit frame tilt (540)

+ Water frame kinetic energy (1030 ') = water frame weight (1031) x gravitational acceleration (530) x water frame tilt (541)

+ Low moving frame kinetic energy (1040 ') = Low moving frame weight (1041) x gravitational acceleration (530) can be calculated and added to calculate the surplus energy (510) value can be calculated as the facility power energy (511) value. .

FIG. 9 is a power generation system diagram, which is a system for converting a moving circulation frame kinetic energy 500 of an orbital circulation into electric energy 511 and uses a power generation system 5000 including a power conversion device 5100 and a generator 5200. I will

The power shifting device 5100 includes a shift gear 5210 formed of a shift gear gear 5111 and a shift gear shaft 5112, a slave gear 5120 formed of a slave gear difference 5121, and a slave gear shaft 5122, and an accelerator. The plate gear 1300 of the movement circulation frame 1000, which is composed of an acceleration gear 5130 formed of an gear car 5131 and an acceleration gear shaft 5152, and circulates the power switching device 5100 and the movement trajectory circulation frame 3000. ) To operate in conjunction with the generator 5200 to produce power.

The gear shift gear 5111 of the shift gear 5110 meshes with the wheel gear shift 1310 of the plate gear 1300 of the shift circulation frame 1000 which circulates in the trajectory circulation frame 3000, and shift gear gear 5111. ) Rotates in engagement with the subordinate gear difference 5121 of the subordinate gear 5120 and the subordinate gear difference 5121 continuously engages with the accelerator gear difference 5131 of the accelerator gear 5130 so that the accelerator gear generator shaft 5152 is engaged. As a power generation system 5000 that produces power by rotating in association with the generator 5200

At this time, each diameter of the switching gear 5110, the slave gear 5120 and the accelerator gear 5130 is set to match the moving speed of the moving circulation frame 1000 and the rated rotational speed of the generator 5200, and the switching gear shaft 5112 ) And the slave gear shaft 5122 and the accelerator gear shaft 5152 are equipped with shaft bearings 550 at the ends to be installed on suitable walls and facilities of the power generation chamber 4220 to increase the efficiency of the power conversion apparatus 5100. do.

10 is a power generation system diagram, the power switching device 5110 is installed in the power generation chamber 4220, the track plate gear 2105 and the outer plate plate gear formed in the low track frame 2040 of the moving track circulation frame 3000 The power generation system 5000 is installed in the power generation chamber 4220 of the orbital circulation box 4000 by combining with the plate gear 1300 of the mobile circulation frame 1000 through the sphere 2312, and an appropriate water level line of the water 410. When anchoring the hydrodynamic movement frame orbit circulating power generation module 7000 in the (400), the inflow water 430 in the water flow direction 420 of the upstream 421 and the high tide 423 and the ebb trough 424 is a moving orbital circulation frame ( 3000 is introduced into the subterranean trajectory 3010 to move the moving circulation frame 1000 from the lower trajectory 2020 side to the high trajectory 2020 side, and the influent 430 becomes the effluent 431 and downstream 422 ), Underwater movement frame kinetic energy (1010 ') and high movement frame kinetic energy (1020') and water movement frame kinetic energy (1030 ') and low movement frame Copper energy (1040 '), the movement cycle frame kinetic energy 500 is generated in conjunction with the power system (5000) is the production of electrical energy (511) as in claim 9, FIG.

11 to 14 are real berths, and the hydrodynamic track orbital cycle power generation module 7000 has a low orbital frame (2010) side upstream 421 and a high orbital frame (2020) side in the case of land rivers. Launch to face the downstream 422 and in the case of the sea to launch regardless of the high water 423 and low tide 424

The pump 6110 of the balance device 6100 of the anchoring system 6000 is operated to flow water from the water 410 into the balance box 4210 of the upper box 4200 of the orbital circulation box 4000, and to move the underwater track frame ( 3010) submerged in the water (220) and when the submerged gravity track frame orbit circulating power generation module (7000) reaches the appropriate level, the anchoring device (6200) operates the hoist (6210), release the anchor line (6220) underwater submarine line ( The present invention as a true anchorage of the hydrodynamic track orbit circulating power generation module 7000 showing anchoring the anchor 630 to anchoring the hydrodynamic track orbit cyclic power generation module 7000 on a particular river or sea. Is also representative of.

FIG. 15 is a diagram showing a hydrodynamic moving frame orbital circulation power generation module, in which a moving orbital circulation frame 3000 is additionally installed on both sides of an orbital circulation box 4000 fixed to the hydrostatic moving frame orbit circular power generation module 7000. It is an exemplary view of a moving frame orbit cyclic combined cycle module 7100.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Includes changes in scope.

100-Peace Bolt
200-pulley shaft bolt 210-nut
300-welded joint
400 - Horoscope
410 - Underwater 411 - Award
412 - Numbers Stop Half
420 - Water flow direction 421 - Upstream
422 - downstream 423 - tide
424 - Low tide
430 - influent 431 - effluent
500-Moving frame kinetic energy 501-Direction of kinetic energy
510 - Surplus energy 511 - Electrical energy
520 - Flow rate 521 - Flow rate
530 - Gravitational acceleration 531 - Gravity direction
540 - High Orbit Frame Slope 541 - Low Orbit Frame Slope
550-Shaft Bearing
600-Door (not shown) 610-Window (not shown)
620-Hydrogen Generator (not shown)
1000-Movement Cycle
1010-Underwater track 1010 '-Underwater track kinetic energy
1011-Underwater track weight
1020-High Orbit Frame 1020 '-High Orbit Frame Kinetic Energy
1021-High Track Weight 1022-Energy Direction High Track
1023-Energy Reverse High Track
1030-Water Orbiter 1030 '-Water Orbiter Kinetic Energy
1031-Water Orbit Frame Weight
1040-Low Track Frame 1040 '-Low Track Frame Kinetic Energy
1041-Low Track Frame Weight
1050-Orbital Frame Center 1060-Mobile Frame
1100-Moving Plate 1101-Moving Plate
1102-Moving plate rails 1103-Pulley shaft groove
1104-Hole 1105-Pan Gear Pieces
1106-Moving plate rail cover
1110-Single Axis Plate 1 1111-Single Axis Plate 2
1120-Multi Axis Moving Plate
1200-Dorle 1210-Dorlehome
1220-Dorle Football
1300-Pan Gear 1310
1320-Pan Gear
1400-Uniaxial Move Frame 1410-Uniaxial Move Frame
1500-Multi-axis Travel Frame 1510-Multi-axis Travel Frame
2000-Orbital Frame
2010-Underwater track 2011-Underwater track
2020-High Track Frame 2021-Energy Progress Direction High Track Frame
2022-Energy Reverse High Track Frame
2030-Sea Orbit 2040-Low Orbit
2050-Orbital frame centerline
2100-Track plate 2101-Track rail
2102-Track rail cover 2103-Track plate inlet
2104-Track plate outlet 2105-Track plate gear
2110-Single Axis Track 2120-Multi Axis Track
2200-Orbital Beam
2300-Orbital outer plate 2310-Orbital outer plate inlet
2311-Orbital Outer Plate Outlet 2312-Orbital Outer Plate Gear
2400-Orbital Shroud 2410-Orbital Side Beam
2500-Single axis orbit 2510-Single axis orbit
2600-Multi-Axis Orbit Frame 2610-Multi-Axis Orbit Circulation Frame
3000-Track trajectory frame 3010-Track trajectory center line
3100-Uniaxial Travel Orbit Frame 3110-Uniaxial Travel Orbit Frame
3200-multi-axis trajectory frame 3210-multi-axis trajectory frame
4000-Orbiter
4100-Lower Box 4101-Lower Box
4102-Lower deck
4110-Foreign Objects 4111-Foreign Protection Net
4112-Foreign Body Inner Plate
4120-Scrap 4121-Scrap Net
4122-Inner Board
4200-Upper compartment 4201-Upper compartment inner plate
4202-Upper compartment outer plate
4210-Balance Seal 4211-Balance Seal Column
4220-Power Generation Room 4221-Power Generation Columns
5000-Power Generation Systems
5100-Power Switching Unit
5110-Switching Gear 5111-Switching Gear
5112-Switching Gear Shaft
5120-Slave Gear 5121-Slave Gear
5122-Subordinate Gear Shaft
5130-Acceleration Gear 5131-Acceleration Gear
5132-accelerator gear shaft
5200-Generator 5210-Generator Rotor Weight
5220-generator
6000-Anchored System
6100-Balancer 6110-Pump
6120-Inner Pipe 6130-Outer Pipe
6200-Anchor 6210-Hoist
6220-Anchor File 6230-Anchor
6300-Air Hole
7000-Hydropower Orbit Circulation Power Generation Module
7100-Hydropower Frame Orbital Cycle Power Module

Claims

Each moving frame 1060 composed of the moving plate 1100 and the pulley 1200 is connected to the plate gear 1300, and the combined underwater moving frame 1010 and the high moving frame 1020 and the water moving frame 1030 and The moving frame 1000 fabricated and coupled to the low moving frame 1040 includes a track plate 2100, a track frame 2100, a track outer plate 2300, and a track side beam 2410. A moving track circulating frame (3000) manufactured and mounted inside an orbital circulation frame (2000) manufactured and combined with an underwater track frame (2010), a high track frame (2020), a water track frame (2030), and a low track frame (2040). ) The upper box 4200 of the orbital circulation box 4000 consisting of the lower box 4100 and the upper box 4200 is installed inside, and left, right, front of the underwater track frame 2040 of the moving trajectory circulation frame 3000. After, the lower box 4100 is mounted and coupled to the track circulation box 4000, the power generation system 5000 and the anchoring system 6000, characterized in that the hydrodynamic frame orbit circulating power generation module 7000

2. The mobile circulation frame 1000 and the mobile orbital circulation frame satisfying the following requirements for the manufacture of the hydrodynamic moving frame orbital circulation power generation module 7000 for the efficient electric energy 511 production of the power generation system 5000. Tips for designing 3000 are to determine the quantity of power energy 511 to be produced by investigating the flow rate 520 and the flow rate and depth of the water in the place of installation.
First, the transverse weight of the underwater trajectory frame (2010) than the sum of the weight of the weight of the underwater mobile frame (1011), high mobile frame weight (1021), generator rotor weight (5210) and generator electromotive force (5220) The value of the underwater waterway frame (2011), which is the product of the volume multiplied by the height of the height and the unit weight of water, sets the specification of the underwater waterway frame (2010).
Second, the underwater frame (1010 ') or the water frame kinetic energy (1030') value is higher than the value of the high frame kinetic energy (1020 ') of the underwater frame (1010) and the water frame (1030) Set the length and the slope and the height and the slope of the high frame 1020.
Third, underwater frame motion (1010 ')-high frame motion (1020') + water frame motion (1030 ') + low frame motion (1040') = surplus energy (510) The movement trajectory circulation frame 3000 having a value obtained by converting the opportunity electron weight 450 into energy + a sum of the generator electromotive force 5220 is set.
Fourth, the balance device 6100 and the anchoring device 6200 of the anchoring system 6000 are adjusted to raise and lower the level line 400 of the underwater track (2010) by adjusting the altitude of the hydrostatic track orbit circulation power generation module (7000). Equipped with an anchoring system 6000 that takes the value of the circulating kinetic energy 500 required by controlling the flow rate 520 and the flow rate 521 of the underwater track frame 2010 to maintain a constant electric energy 511 value. Manufacture of underwater gravity frame orbit circulation power generation module (7000)
Fifth, since the inner width of the trajectory circulation frame 3000 is larger than the width of the moving plate 1060, the standard is set so as not to interfere with the flow of the flow velocity 520 inside and outside of the underwater trajectory frame 2010.
Underwater gravity moving frame orbit circulating power generation module (7000), characterized in that based on the design and manufacture of the moving orbit circulation frame 3000 and the moving circulation frame 1000 to satisfy the above five elements

The method of claim 1, wherein the movement of the trajectory circulation frame (3000) fixed to the hydrostatic moving frame orbit circulating power generation module (7000) is manufactured by additionally installed by moving the orbital circulation frame orbital circulation Combined Cycle Modules (7100)