KR20130098556A - Complex generation system for hydro and gravity power - Google Patents

Abstract

PURPOSE: A complex generation system for water and gravity power is provided to have the minimum amount of structure in the same direction as water, thereby maintain the flow of water, utilizing a water source in a manner that the effect on the natural ecosystem is minimized, and generating electricity power with a fusion source to which a gravity source is added. CONSTITUTION: A complex generation system for water and gravity power includes a movement circulation frame (2000), a movement trajectory circulation frame (3000), a movement trajectory circulation module (5000), and a generation system (6000). The movement circulation frame includes an underwater movement frame (2010), which has a movement frame (1000') on which a movement device (2200) is mounted is connected and coupled by a connection rod (2300) in a movement body (2100) which has a hollow shape and in which multiple block-double steel portion (2110), a water hole (2120), a connection steel portion (2130), and a movement gear (2140) are formed, an upper movement frame (2020), and water-surface movement frame (2030), and a lower movement frame (2040) The movement trajectory circulation frame is manufactured by a trajectory frame (1000'), which is configured of a trajectory inner plate (1100), a trajectory beam (1200), a trajectory outer plate (1300), and a trajectory side beam (1400), being mounted in a trajectory circulation frame (1000) which is manufactured and coupled by an underwater trajectory frame (1010), an upper trajectory frame (1020), a water-surface trajectory frame (1030), and a lower trajectory frame (1040). The movement trajectory circulation module is manufactured by an upper box (4200) of a trajectory circulation box (4000), which is configured of a lower box (4100) and an upper box (4200), being mounted in a movement trajectory circulation frame (3000), and a lower box (4100) being mounted and coupled to the left, right, front, and rear of the underwater trajectory frame (1040) of a movement trajectory circulation frame (3000). The generation system is installed at the upper end of a bow portion (4110) and inside the generation chamber (4240) of a trajectory circulation box (4000) of a movement trajectory circulation module (5000).

Description

Hydropower Combined Cycle Power Plant {COMPLEX GENERATION SYSTEM FOR HYDRO AND GRAVITY POWER}

The present invention relates to a combined orbital circulation system of a mobile module for producing electric power using hydraulic power and gravity resources, and a combined power generation system using a power conversion device and a screw propeller power.

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 is equipped with a trajectory circulation frame of the trapezoidal shape closed loop circulation frame to form a closed orbital circulation device using the flow of water resources and the drop of gravity and to combine the power conversion device and the generator in the orbital circulation device to produce electric power Mobile module track circulation power generation system

Application technology using a screw propeller power generation system that generates power by installing a single propeller and a spiral propeller on a screw propeller shaft and linking a power transmission device with a generator.

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 utilizes water resources in a manner that forms a minimum structure in the same direction as the direction of water progress and continues the flow of water and minimizes the impact on the natural ecosystem.

In order to use the earth's floating water resources and gravity, a trapezoidal closed orbital circulation frame is manufactured, and a moving frame coupled with each moving body and a connecting rod connecting the moving bodies and the power shifting device that interlocks with the moving gear and a generator are configured.

It is a nature-friendly power generation facility that uses the flow of water resources and gravity, and it has various uses such as small power generation models, medium-sized power generation facilities, and large-scale power generation ships, and has high utilization rates and does not require separate power plant sites by applying to rivers or the sea. There is.

Figure 1
2nd orbital diagram
Third degree moving body diagram
Figure 4 moving frame and moving track frame
Fig. 5 Orbital frame and moving frame and moving orbital circulation frame and orbital circulation box
FIG. 6 Moving Track Circulation Frame Module Diagram
7th circulating kinetic energy system diagram
8th generation power system diagram
The ninth power generation schematic
10th Launch Decimal
Figure 11 Hydrodynamic Mobile Module Orbital Circulation Power Generation System
Figure 12 Hydrodynamic Mobile Module Orbital Circulation Power Combined Cycle System
Fig. 13 Screw Power Generation Attachment
14th view detail of power unit
The 15th screw power generation installation drawing
16th screw power generation mounting drawing
17 degree underwater track frame and screw turbine chamber coupling diagram
18 ~ 19 degree hydro power system
Figure 20 Combined Hydropower Combined Cycle Power Generation System

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

FIG. 1 is an attached view showing the moving device, welding and connecting rod

The moving device 2200 includes a pulley 2210, a tripod 2220, and a pulley shaft 2230.

A pulley 2222 and a pulley groove 2212 are formed in the pulley 2210, and a tripod ball 2210 is formed on the tripod 2200, and a pulley football 2231 is formed on the pulley shaft 2230.

The pulley shaft 2230 coincides with and inserts a tripod ball 2221 of the tripod 2220, a pulley convex part 2111 of the movable body 2100, and a pulley ball 2211 of the pulley 2210. By mounting the pulley pin 2232 to the upper and lower movable body 2100 serves to mount the mobile device 2200

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

Connecting rod 2300 is composed of a connecting rod shaft 2320 and the connecting rod pin (2330)

The connecting rod 2300 has a cylindrical shape, and the connecting rods 2310 are symmetrically formed on the left and right sides, and the connecting rod shafts 2321 are also formed on the left and right sides of the connecting rod shafts 2320.

The connecting rod 2300 of the left and right connecting rods 2310 and the connecting convex portion 2131 of the connecting convex portion 2130 formed before and after the moving body 2100 and inserting the connecting rod shaft 2320 to the connecting rod shaft 2321 When the pin 2330 is mounted, each moving body 2100 is connected to serve to form the moving frame 2000 '.

2 is a track frame diagram. The track frame 1000 'includes a track inner plate 1100, a track beam 1200, a track outer plate 1300, and a track side beam 1400 or a track side plate 1410.

The track inner plate 1100 has a plurality of track rails 1110 protruding from the inner plate so that the track rail 1110 is fixed inside the track frame 1000 'and the track beam 1200 is fixed to the outer side of the track inner plate 1100 in the longitudinal direction. (1200) Orbital outer plate (1300) is fixed to the outer side of the orbital plate 300 and the orbital frame (1000 '), respectively, the orbital side beams (1400) are fixed to both sides of the upper and lower sides of the orbital beam (1200) In accordance with the orbital side beam 1400 instead of the orbital side plate (1410) to fix the aesthetics or to move the moving frame (2000 ') to block the noise.

The track rail cover 1120 is mounted on the track rail 1110, and when worn and replaced, the track rail cover 1120 prevents wear of the track rail 1110 and moves the pulley 2200 of the mobile device 2200 to the track rail 1110. To play a role

The high orbit frame 2020 divided into an energy forward high track frame 2021 and an energy reverse high track frame 2022 by manufacturing the orbital frame 2010 by combining the track frames 1000 'in a longitudinal direction and combining them. The water orbit frame 2030 and the low orbit frame 2040 are manufactured and interconnected to fabricate the orbital circulation frame 1000.

3 is a view of a moving body, the top view is a plan view, the front view, the side view of the moving body 2100 and the lower view is the assembly frame of the moving frame 2000 '.

The front surface of the movable body 2100 is flat and the rear surface is a hollow cylindrical shape of a round dome, and the connecting convex portion 2130 having a connecting convex hole 2131 formed at the center of the front portion and the rear portion is symmetrically larger than the diameter of the connecting rod 2300. The pulley convex part 2110 is formed and formed on both sides of the upper and lower pulley convex part 2111 is formed to match the interval of the track rail 1110 formed on the track inner plate 1100 of the track frame (1000 ') End length of the pulley 2210 of the mobile device 2200 is mounted on the mobile body 100, the mobile gear 2140, the mobile gear gear 2141 is formed in the center of the mobile body 2100 corresponding to the inside of the frame (1000 '). Protrudingly formed similar to the plurality of water holes 2120 formed on the front, rear, top, bottom and side of the moving body 2100

Pulley convex portion 2110 formed on the upper and lower portions are mounted on both sides of the pulley convex ball 2112 to coincide with the moving device 2200 and the tripod ball 2221 of the tripod 2220 to insert the pulley shaft 2230 and the pulley football ( 2231, the pulley pin 2232 is mounted to move the moving body 2100 by mounting the moving device 2200 on each pulley convex portion 2110, and pulley convex cover 2112 on the pulley convex portion 2110 ) Is mounted and the pulley 2210 is mounted to serve to prevent wear of the pulley portion 2110 during mobile use.

The connecting rods 2300 are mounted on the connecting convex portions 2130 formed at both the front and rear sides of the respective moving bodies 2100 so that the connecting convex bulbs 2131 and the connecting bar 2310 are fitted so that the connecting bar shafts 2320 are mounted. By attaching 2321 to fix the connecting rod pins 2330, the movable bodies 2100 are connected in the lateral direction to form a moving frame 2000 ′.

The water hole 2120 of the moving body 2100 flows water from the water 410 of the underwater track 1010 to add the weight of water to its own weight of the moving body 2100, and to move the high orbit 1010 and the water track. The water frame 411 of the frame 1030 and the low orbit frame 1040 serves to maintain the weight of the mobile body 2100 by draining the water in the mobile body 2100 to smooth the flow of the flow rate 520. It will play a role.

4 is a moving frame and a moving track frame, the upper view of the moving frame diagram and the lower view of the moving frame frame road

The upper view pulley is mounted on both sides of the pulley convex part 2112 of the pulley convex part 2110 formed at the upper end and the lower end of the moving part 2100 in accordance with the moving device 2200 and the tripod ball 2221 of the tripod 2220. Insert the shaft 2230 and the pulley pin 2232 to the pulley shaft 2223 to mount the mobile device 2200 in each pulley convex portion 2110, each of the front and rear of each of the moving body 2100 The connecting rod 2300 is connected to the connecting convex portion 2130 formed on the connecting convex portion 2131 and the connecting rod 2310 so that the connecting rod shaft 2320 is mounted, and the connecting rod shaft 2321 is mounted to the connecting rod pin 2330. Also, the moving frame 2000 'assembled by connecting each moving body 2100 in the lateral direction by fixing the

The lower view is a movement track frame 3000 'manufactured by fitting the pulley groove 2212 of the assembled moving frame 2000' and the track rail 1110 of the manufactured track frame 1000 'coincidentally mounted.

5 is a raceway frame, a moving frame, and a moving track circulation frame and a track circulation box from the top view to

As described in FIG. 2, the track circulation frame 1000 includes a track frame 1000 ′ composed of a track inner plate 1110, a track beam 1200, a track outer plate 1300, and a track side beam 1400. Continuous or combined in the direction to produce the underwater track frame (2010) and the high orbit frame 1020 and water track frame (1030) divided into the energy forward high track frame 1022 and the energy reverse high track frame (1022) and low The track frame 1040 is manufactured, interconnected and assembled to manufacture the track circulation frame 1000, and the track rail plate 1100 in accordance with the foreign material portion 4110 and the solid portion 4130 of the track circulation box 4000 Orbital circulation frame (1000) formed with plate inlet (1103), orbital plate outlet (1104) and orbital outer plate inlet (1310) and orbital outer plate outlet (1311) at orbital outer plate (1300).

 The moving circulation frame 1000 is continuously coupled to the moving frame 1000 'on which the moving device 2200 is mounted on the moving body 2100 as the connecting rod 2300 as described in FIG. 3 to manufacture the underwater moving frame 2010. The movement made by making and connecting the high moving frame 2020 and the water moving frame 2030 and the low moving frame 2040 divided into the energy forward high moving frame 2022 and the energy reverse high moving frame 2023. The frame (1000) is also

 By mounting the moving circulation frame 2000 in the orbital circulation frame 1000, the orbital circulation frame center line 2050, the moving circulation frame center line 2050, and the moving orbital circulation frame center line 3010 coincide with the moving orbital circulation frame 3000. Is also.

Orbital circulation box 4000 is composed of a lower box 4100 and the upper box 4200

The lower box 4200 is divided into a foreign body portion 4110, a hull portion 4120 and a solids portion 4130.

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 launched in the water 410 by its own weight, anchored at sea by the anchoring device 6400 installed on the top of the foreign body 4110, the high water 423 and the low tide 424 intersect, even if the water flow direction 420 changes The foreign material portion 4110 orbits the orbital circulation 4000 according to the water flow direction 420 based on the anchor 6430 settled at the stop line 412 so that the solid portion 4130 is always at the foreign material portion 4110. ) To inflow and outflow of water

In the case of installation on the land river, the flow direction of the water is constant, so the anchor 6430 of the foreign body portion 4110 may be fixed to the underwater ground line 412, and the width of the foreign body portion 4110 and the solid portion 4130 may be made constant. You may.

The lower box 4100 includes the foreign material protection net 4111 of the foreign material part 4110, the foreign material inner plate 4112, the foreign material hydrological device 4113, the hull side plate 4121 and the hull bottom plate 4122 of the hull part 4120. And it consists of a solid protection net 4131, a solid inner plate 4132 and a solid hydrology device 4133 of the solid part 4130, the hull side plate 4121 of the moving track circulation frame 3000 as shown in the figure It is combined with the outer wall of the underwater trajectory frame 1010 and the solid inner plate 4132 of the solid part 4130, and the foreign material inner plate 4112 and the solid inner plate 4132 in the foreign body part 4110 and the solid part 4130. ) Is fixed to the upper box (4200) and the hull bottom plate (4122) is fixed to the upper and lower empty space of the hull side plate (4121) and the foreign body protection net on the outside of the foreign body portion 4110 and the solid portion (4130). The 4111 and the reticulum protection net 4132 are installed, and a foreign body hydrology device 4113 and a water repellent device 4133 are settled and installed at the upper end of each to block the inflow of the underwater trajectory frame 1010 of foreign matter. During the breakdown or maintenance, the foreign body gate device 4113 and the solid gate device 4133 are closed to block the flow rate 520 of the underwater track 1010 to stop the flow of the moving body 2100 of the moving frame 1000 'and Repair or replace.

The upper box 4200 is mounted inside the trajectory circulation frame 3000, and the power generation system 6000 and the hydrogen generator 620 are installed in the power generation chamber 4240 of the upper box 4200, and the foreign body 4110 is located outside. An anchoring device 6400 is installed at the top

The upper box 4200 is made of an upper inner plate 4210, an upper outer plate 4220, and an upper beam 4230 so that a power generation chamber 4240 is formed therein, and the upper upper inner plate 4210 and the foreign material part 4110 side. An upper inner plate gear 4211 and an upper outer plate gear 4221 are formed on the upper plate 4220 so that the power switching device 6100, the power transmission device 6200, and the orbital circulation generator 6300 of the power generation system 6000. ) Is also equipped with orbital circulation box (4000).

6 is a diagram of a moving orbital circulation module, the top view is a plan view, the left and right views of the lower part are a sectional view, and the center is a side view.

Orbital circulation box (4000) inside the moving circulation frame 2000 of the moving orbital circulation frame (3000) equipped with the moving circulation frame (2000) in the orbital circulation frame (1000) manufactured as shown in FIG. The trajectory circulation module 5000 is also shown.

FIG. 7 is a schematic diagram of the kinetic energy system of the mobile circulation frame. In order to obtain an efficient mobile circulation frame kinetic energy 500, the moving orbital circulation frame 3000 includes an underwater orbital frame 1010, a high orbital frame 1020, and a water orbital frame 1030. The low trajectory frame 1040 and the mobile circulation frame 2000 are also divided into the underwater frame 2010 and the high frame 2020 and the water frame 2030 and the low frame 2040. It calculates the movement circulation frame kinetic energy (500)

In order to manufacture the hydropower moving frame orbit circulation power generation system 100 for the efficient electrical energy (511) production of the power generation system 6000 is to design a moving track circulation frame 3000 that satisfies the following requirements.

First, the flow rate 520, the flow rate 521, and the depth of the river or the sea at the place of installation are examined to determine the required generation capacity, that is, the quantity of power energy 511 to be produced.

First, multiply the unit weight of water by the volume multiplied by the transverse and vertical heights of the underwater trajectory frame 1010 rather than the sum of the underwater mobile frame weight (2011), the high mobile frame weight (2021) and the generator rotor weight (6320). The underwater track frame weight 1011 value is set largely the size of the underwater track frame 1010.

Second, the value of the underwater movement frame (2010 ') or the water movement frame kinetic energy (2030') is greater than the value of the high movement frame kinetic energy (2020 '). Set the length and the slope and the height and the slope of the high moving frame 2020.

Third, + Underwater track kinetic energy (1010 ') or + Underwater moving frame kinetic energy (2010')-High moving frame kinetic energy (2020 ') + Water moving frame kinetic energy (2030') + Low moving frame kinetic energy ( 2040 ') = sets the movement trajectory circulation frame 3000 specification in which the surplus energy 510 value is larger than the value in which the generator rotor weight 6310 is converted into energy.

Fourth orbital circulator 400, the waterline 401 is the center of the energy forward high orbit frame 1021 hydropower module orbit circulating power generation system 100 or hydropower module orbit cyclic cyclic power generation module 110 The width of the orbital circulation box 400 is set by calculating the weight.

Fifth, since the inner width of the moving trajectory circulation frame 3000 is greater than the width of the moving object 2100, the standard setting does not affect the flow velocity 520 of the outer outer four directions of the underwater trajectory frame 1010.

As the hydrodynamic moving module orbital cyclic power generation system 100 based on the design and manufacture of the orbital circulation frame 1000 and the moving circulation frame 2000 of the moving orbital circulation frame 3000 to satisfy the above elements.

The value of the moving circulation frame kinetic energy 500 of the moving circulation frame 2000 shown in the drawing is the underwater moving frame kinetic energy (2010 ')-the high tilt moving frame kinetic energy (2020') + the water moving frame kinetic energy (2030). ') + Low moving frame kinetic energy (2040') = surplus energy (510)

+ Underwater track kinetic energy (1010 ') = (Underwater track weight (1011)-Underwater transport frame weight (2011)) x Flow rate (520) x Energy absorption rate (502) and + Underwater transport frame kinetic energy (2010') = Underwater frame weight (2011) x Flow rate (520)

High tilt frame kinetic energy (2020 ') = High moving frame weight (2021) x gravitational acceleration (530) x high track frame height (1023) x high track frame tilt (540) x gradient coefficient (542)

+ Water frame kinetic energy (2030 ') = water frame weight (2031) x gravity acceleration (530) x water track frame height (1031) x water frame tilt (541) x gradient coefficient (542)

+ Low moving frame kinetic energy (2040 ') = Low moving frame weight (2041) x gravitational acceleration (530) x low track frame height (1041) 511) to calculate the value

Here, the slope coefficient 542 is a constant defined as 0.5 based on the length 1 and the height 1

For length> height, calculate as (height / height) * gradient constant (542)

For length <height - 1 - ((length / height) * slope constant (542))

The energy absorption rate 502 is a coefficient obtained by an experiment, and means a coefficient that is commonly applied to convert hydraulic energy according to the flow velocity 520 into kinetic energy and convert it into underwater track kinetic energy 1010 '. And may be included in the tap water energy absorption rate 502 of the generator efficiency.

FIG. 8 is a power generation system diagram. The power conversion system 6100 and the power transmission device 6200 and the orbital circulation are the power generation system 6000 for converting the movement cyclic kinetic energy 500 of the orbital circulation into the electric energy 511. Composed of generator 6300 and anchoring device 6400

The power shifting device 6100 includes a shift gear shift 611 settled at an end of the shift shift gear 6110 and the shift shift gear shaft 6112 formed of the shift shift gear gear 6111 and the shift shift gear shaft 6112. Geared gears set at the ends of the geared rack gear 6121 and the geared rack bevel gear shaft 6223 formed of a switching gearbox 6313, a geared gear rack 6223 and a geared rack bevel gear shaft 6223 formed thereon. It is composed of a subordinate bevel gear (6124) having a gear (6125), a subordinate bevel gear gear (6131) and a subordinate bevel gear (6130) formed with an accelerated bevel gear shaft (6132)

Power train 6200 consisting of transmission 6210 operating at normal, low speed, constant speed, and high speed.

And the generator shaft 6330 connected to the power transmission device 6200 is composed of orbital circulation generator 6300 protruding to the outside

The orbital circulation generator 6300 produces power by cooperating with the moving body gear 2300 of the moving body 2100 of the moving circulation frame 2000.

The movable body gear 2300 of the movable body 2100 of the movable circulation frame 2000 circulating through the movable orbit circulation frame 3000 is a shift gear of a plurality of shifting gears 6110 protruding from the orbital frame 1030. At least one of the mobile gear gears 2310 of 6111 is continuously engaged with the shifting gear shaft 6112 rotated among the plurality of shifting gear gears 6111 is settled at the end of the shifting gear shaft 6112. At least one of the gearboxes of the plurality of gearboxes 6222 of the plurality of gearboxes 6222 formed in the gearbox of the speed increaser bevel gear 6120 by rotating the gearbox gearbox 6114 of the switching gearbox 6113. When the gearbox 6222 is engaged with the gearbox 6222 and the gearbox shaft 6223 rotates, the gearbox 6225 of the gearbox 6223 of the gearbox 6224, which is fixed to the end of the gearbox bevel gear 6223, is a subordinate bevel gear. The subordinate bevel gear shaft 6132 rotates in engagement with the subordinate bevel gear gear 6131 of 6130. It is connected to the transmission 6310 and the transmission 6310 of the power transmission device 6300 is connected to the generator shaft 6330 of the orbital circulation generator 6300, the generator 6300 is a power generation system 6000 to produce power. As

At this time, the respective diameters of the shifting gear 6210, the shifting speed gear 6131, the speeding rack bevel gear 6120, the speeding rack gear 6121, the speeding rack bevel gear 6224, and the subordinate bevel gear 6130 are movable circulation. Set to suit the moving speed of the frame (2000) and the rated rotational speed of the orbital circulation generator (6300), the shifting gear shaft (6112), the increased rack bevel gear shaft (6123) and the increased bevel gear shaft (6132) at the end. The shaft bearing 550 is mounted on the proper wall surface and facilities of the power generation room 4240 to increase the efficiency of the power converter 6100.

FIG. 9 is a power generation system diagram. The power conversion device 6100, the power transmission device 6200, and the orbital circulation generator 6300 are installed in the power generation chamber 4240 of the orbital circulation box 4000, and thus, of the mobile circulation frame 2000. In conjunction with the mobile gear 2300 and anchored in the river or the sea of the land using the anchoring device 6400, the hydrostatic moving frame orbit circulating power generation system 100 in the water level line 400 of the underwater 410 421 and the high water 423 and the inflow water 430 in the water flow direction 420 of the low tide 424 flows into the underwater trajectory frame 1010 of the moving trajectory circulation frame 3000 of the moving circulation frame 2000 It moves from the low orbit frame 1040 side to the high orbit frame 1020 side and the inflow water 430 becomes the outflow water 431 and flows out downstream 422, and the water frame movement energy (2010 ') and the high For the movement of the movement of frame dynamics (2020 '), water frame dynamics (2030') and low frame dynamics (2040 ') The energy 500 is generated and is connected with the power generation system 6000 to produce electrical energy 511 as shown in FIG.

FIG. 10 is a real berth, and the trajectory circulation module 5000 launches the low orbit frame 1040 side upstream 421 and the high orbit frame 1020 side downstream 422 in the case of onshore rivers. In the case of the sea, if the water flow 423 and the ebb 424 at the proper position when launched, the trajectory circulation module 5000 stops in the water 410 due to its own weight, and the hoist 6410 of the anchoring device 6400 operates. Unlock anchor line 6620 and anchor anchor 6230 on underwater ground line 412 to anchor anchor trajectory module 5000 to a specific river or sea. to be.

FIG. 11 is a diagram showing the hydrodynamic moving module orbital cyclic power generation system. As shown in FIG. 10, the hydrodynamic moving module orbital cyclic power generation system 100 has a low orbital frame 1040 upstream 421 in the case of rivers on land. It is an exemplary view of the hydrodynamic moving module orbital cyclic power generation system 100 launched so that the high trajectory frame 1020 side toward the downstream (422).

FIG. 12 is a diagram showing the orbital circulation power system of the hydrodynamic moving module. The orbital gravity moving module track further includes a moving orbital circulation frame 3000 mounted on both sides of the orbital circulation box 4000 fixed to the hydrostatic power generation system 7000. It is an example of the cyclic power hybrid power generation module 110.

13 is a side view of the power generating unit, a top view is a side view, and a bottom view is a sectional view, in which a propeller 8210 is settled at the tip of a circular long axis screw propeller shaft 8130, followed by a spiral propeller 8120 and a bevel gear 8210 at the end. ) Screw screw propeller 8100 is fixed

It is installed in the screw turbine chamber 8000 and serves to provide power to produce power in connection with the screw generator 8600, and the shaft propeller shaft (550) is fixed to both ends of the screw propeller shaft (8130) screw propeller ( Increase the efficiency of the 8100

14 is a detailed view of the power unit, and the upper view shows a switching bevel gear 8210 having a switching bevel gear gear 8211 formed at the end of the screw propeller shaft 8130. Is a cross-sectional view and a side view of the bevel gear gear (8221) is engaged with the switching dependent bevel gear (8220) is formed

The lower view is engaged with the gearbox 8320, in which the gearbox 8300 and the gearbox 8320 are formed, and the gearbox 8320 having the clutch gear 8321 formed thereon is formed on the top of the switching-dependent bevel gear shaft 8222. A cross-sectional and side view of a screw generator 8600 associated with a clutch 8400 and coupled with a screw generator 8500.

FIG. 15 is a diagram showing the installation of screw power generation. The propeller 8210, the spiral propeller 8120 and the screw bevel gear 8210 equipped with the propeller 8210, the spiral propeller 8210 and the switching subordinate are maintained at regular intervals on the screw propeller shaft 8130. As a bevel gear 8200, a speed increase gear 8300, a clutch gear 8320, and a clutch 8400, the screw generator 8500 is coupled to each other as a screw generator 8500.

When the inflow water 430 flows from the upstream 421 to the downstream 422 in the propeller 5120 and the continuous screw 5130, the propeller 8210 of the screw propeller shaft 8130 rotates by the flow velocity 520. 8120 is accelerated by the switching bevel gear 8210, when the switching bevel gear gear 8130 and the switching dependent bevel gear gear 821 rotates, the switching dependent bevel gear shaft 8222 rotates the switching dependent bevel gear When the gearbox 8310 and the clutch gear 8321 are engaged with the gearbox 8310 and the clutch gear 8321 rotated at the top, the clutch gear shaft 8322 associated with the clutch generator 8500 is rotated. By rotating the clutch generator (8500) to produce power to the screw generator (8600) when repairing or replacing parts, using the clutch (8400) to cut off the power and perform work

At this time, the diameters of the switching bevel gear 8210, the switching dependent bevel gear 8220, and the speed increasing gear 8300 are designed to be suitable for the moving speed of the screw propeller 8100 and the rated rotation speed of the screw generator 8500, and the screw propeller Both ends of the shaft 8130, the switching-dependent bevel gear shaft 8222, and the clutch gear shaft 8322 are equipped with shaft bearings 550 and are fixed in the underwater gear chamber 8200 and the orbital circulation box 4000 to form a screw generator. Increase the efficiency of (8600).

FIG. 16 is a diagram showing the installation of screw power generation. The screw power generator 8600 operated by being coupled as shown in FIG. 15 is equipped with a screw propeller 8100 in a screw turbine chamber 8000.

In the underwater gear chamber 8200 formed in the screw turbine chamber 8000, the switching bevel gear 8210, the switching dependent bevel gear 8220 and the switching dependent bevel gear shaft 8222 mounted to the screw propeller shaft 8130 are mounted. There is also a screw propeller power generation system 9000 in which the orbital circulation box 4000 is equipped with a switching-dependent bevel gear shaft 8222, an acceleration gear 8300, a clutch gear 8320, a clutch 8400, and a screw generator 8500. .

17 is a coupling diagram of a submerged raceway frame and a screw turbine chamber, the upper two degrees of the frame coupling degree and the lower two degrees of the propeller rotation direction road

The screw turbine chamber 8000 of the screw propeller power generation system 9000 as shown in FIG. 16 is a separate type that independently couples with each partition wall on both sides of the underwater track 1010 of the mobile module orbital circulation power generation system 7000. And the screw turbine chamber 8000 and the underwater track frame 1010 are combined in an integral manner to be combined without the partition wall to form the underwater turbine track frame 120

Each screw propeller 8100 of the combined underwater turbine track 120 may rotate the screw propeller shaft 8130 in opposite directions according to the mounting method of the screw propeller 8210 of the screw propeller shaft 8130. It may be rotated in the direction, which is determined according to the flow rate 520, the position of the orbital circulation generator 6300 and the screw generator 8500, and the relationship between the devices.

18 to 19 are hydrodynamic combined cycle power generation systems, and the mobile module orbital cyclic power generation system 7000 and the screw propeller power generation system 9000 manufactured as shown in FIG. 16 and FIG. Top view, side view, and cross-sectional view of the combined hydropower hybrid power generation system 100 mounted by the same coupling method is a representative view of the present invention.

20 is a combined hydropower combined cycle power generation system combined with hydrodynamic combined cycle power generation system 7000 on both sides of the combined hydropower combined cycle power generation system 100 as shown in FIGS. An example of the power generation system 100 is also shown.

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-Hydropower Combined Cycle Power System
110-Hydropower Combined Cycle Power Generation System
120-Underwater Turbine Tracks
200-Pulley Shaft Bolts 210-Nut
300-welded joint
400 - Waterline 401 - Waterline
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
502 - energy absorption rate
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
542 - Slope constant
550 - Axial bearing (not shown in the drawing)
600-Door (not shown) 610-Window (not shown)
620-Hydrogen Generator (not shown)
1000-Orbital Cycle 1000 '-Orbital Frame
1010-Underwater track 1010 '-Underwater track kinetic energy
1011-Underwater track frame weight 1012-Underwater track frame volume
1020-High Track 1021-Energy Forward High Track
1022-Energy Reverse High Track 1023-High Track Height
1030-Water Orbit Frame 1031-Water Orbit Frame Height
1040-Low Track Frame 1041-Low Track Frame Height
1050-Orbital frame centerline
1100-Track plate 1103-Track plate inlet
1104-Track plate outlet 1105-Track gear plate
1100-Inner track 1110-Track rail
1120-track rail cover
1200-Orbital Beam
1300-Orbital sheath 1310-Orbital sheath
1311-Orbital plate outlet
1400-Orbital side beam 1410-Orbital side plate
2000-Moving Frame 2000 '-Moving Frame
2010-Underwater Traveling Framework 2010 '-Underwater Traveling Framework Kinetic Energy
2011-underwater transport frame weight
2020-High Moving Frame 2020 '-High Moving Frame Kinetic Energy
2021-High Travel Frame Weight 2022-Energy Forward High Travel Frame
2023-Energy Reverse High Travel Frame
2030-Floating Frame 2030 '-Floating Frame Energy
2031-Floating Frame Weight
2040-Low Travel Frame 2040 '-Low Travel Frame Kinetic Energy
2041-Low Travel Frame Weight
2050-frame centerline
2100-mobile
2110-Pulley iron parts 2111-Pulley iron balls
2112-Pulley cover
2120-water hole
2130-Connecting Cone 2131-Connecting Cone
2140-Mobile Gear Gear 2141-Mobile Gear Gear
2200-Movers
2210-Pulleys 2211-Pulleys
2212-Pulley grooves
2220-tripod 2221-tripod
2230-Pulley Shafts 2231-Pulley Footballs
2232-pulley pin
2300-Connecting Rod 2310-Connecting Rod
2320-Connecting Rod Shaft 2321-Connecting Rod Shaft
2330-connecting rod pin
3000-Track trajectory 3000 '-Track trajectory
3010-track orbital center line
4000-Orbiter
4100-lower box
4110-Foreign Objects 4111-Foreign Protection Net
4112-Foreign Body Inner Plate 4113-Foreign Body Gate Device
4120-Hull 4121-Hull Side Plates
4122-Hull Bottom Plate
4130-Scrap 4131-Scrap Net
4132-Inner plate 4133-Sluice gate
4200-Upper Box
4210-Upper Inner Plate 4211-Upper Inner Gear
4220-Upper Outer Plate 4221-Upper Outer Gear
4230-Top Column 4240-Power Generation Room
5000-trajectory circulation module
6000-Power Generation Systems
6100-Power Shifters
6110-Shift Gear 6111-Shift Gear
6112-Shifting Gear Shaft 6113-Shifting Gear
6114-Transformation Gearbox
6120-High Speed Rack Bevel Gears 6121-High Speed Rack Gears
6122-High Speed Rack Gearbox 6123-High Speed Rack Bevel Gear Shaft
6124-High Speed Rack Bevel Gears 6125-High Speed Rack Bevel Gears
6122-High Speed Bevel Gear Shaft
6130-Subordinate Bevel Gears 6131-Subordinate Bevel Gears
6132-Subordinate Bevel Gear Shaft
6200-Power Train
6210-Transmission
6300-Orbital Cycle Generator 6310-Generator Shaft
6320-Generator Rotor Weight
6400-Anchor
6410-Hoist 6420-Anchor File
6430-Anchor
7000-Moving module orbital cyclic power generation system
8000-Scutter Bin Room
8100-Screw Propeller 8110-Propeller
8120-Spiral Propeller 8130-Screw Propeller Shaft
8200-Underwater Gear Rooms 8210-Convertible Bevel Gears
8211-Convertible Bevel Gears
8220-Switched Bevel Gears 8221-Switched Bevel Gears
8222-Convertible Bevel Gear Shaft
8300-Gearbox 8310-Gearbox
8320-Crush Gear 8321-Crush Gear
8322-Crushing Gear Shaft
8400-Clutches
8500-Screw Generator 8600-Screw Generator
9000-Screw Propeller Power Generation System

Claims (5)

Moving frame 1000 'in which a mobile device 2200 is mounted on a hollow cylindrical moving body 2100 in which a plurality of double pulley convex portions 2110, a water hole 2120, a connecting convex portion 2130, and a moving body gear 2140 are formed. ) Is connected to the connecting rod (2300), coupled to the underwater moving frame (2010) and the high moving frame (2020) and the water moving frame (2030) and the low moving frame (2040), coupled to the mobile circulation frame (2000)
An orbital frame 1000 'composed of an orbital inner plate 1100, an orbital beam 1200, an orbital outer plate 1300, and an orbital side beam 1400 includes an underwater orbital frame 1010, a high orbital frame 1020, and a water orbital frame ( 1030) and the inside of the trajectory circulation frame 3000 manufactured and mounted inside the orbital circulation frame 1000, which is manufactured and coupled to the low orbit frame 1040.
The upper box 4200 of the track circulation box 4000 composed of the lower box 4100 and the upper box 4200 is mounted inside the moving track circulation frame 3000 and the underwater track frame 1040 of the moving track circulation frame 3000. ) Left, right, before and after the lower box (4100) is mounted and coupled to the movement trajectory circulation module (5000)
A mobile module orbital cyclic power generation system, characterized in that the power generation system 6000 is installed inside the power generation chamber 4240 and the foreign material 4110 of the track circulation box 4000 of the manufactured orbital circulation module 5000. (7000) The method of claim 1, characterized in that for designing the mobile module orbital circulation power generation system 7000 for the efficient production of electrical energy 511 of the power generation system 6000, the mobile orbital circulation frame 3000 that satisfies the following requirements Will be done.
First, the flow rate 520, the flow rate 521, and the depth of the river or the sea at the place of installation are examined to determine the required generation capacity, that is, the quantity of power energy 511 to be produced.
First, multiply the unit weight of water by the volume multiplied by the transverse and vertical heights of the underwater trajectory frame 1010 rather than the sum of the underwater mobile frame weight (2011), the high mobile frame weight (2021) and the generator rotor weight (6320). The underwater track frame weight 1011 value is set largely the size of the underwater track frame 1010.
Second, the value of the underwater movement frame (2010 ') or the water movement frame kinetic energy (2030') is greater than the value of the high movement frame kinetic energy (2020 '). Set the length and the slope and the height and the slope of the high moving frame 2020.
Third, + Underwater track kinetic energy (1010 ') or + Underwater moving frame kinetic energy (2010')-High moving frame kinetic energy (2020 ') + Water moving frame kinetic energy (2030') + Low moving frame kinetic energy ( 2040 ') = sets the movement trajectory circulation frame 3000 specification in which the surplus energy 510 value is larger than the value in which the generator rotor weight 6310 is converted into energy.
Fourth, the draft line 401 of the orbital circulation box 400 is used to measure the weight of the moving module orbital cyclic power generation system 7000 or the moving module orbital cyclic power generation system 7100 so as to be the center portion of the energy forward high orbit frame 1021. By calculating the width of the orbital circulation box 400 is set.
Fifth, since the inner width of the moving trajectory circulation frame 3000 is greater than the width of the moving object 2100, the standard setting does not affect the flow velocity 520 of the outer outer four directions of the underwater trajectory frame 1010.
As a moving module orbital cyclic power generation system 7000 based on the design and manufacture of the orbital circulation frame 1000 and the moving circulation frame 2000 of the moving orbital circulation frame 3000 to satisfy the above elements.
The value of the moving circulation frame kinetic energy 500 of the moving circulation frame 2000 shown in the drawing is the underwater moving frame kinetic energy (2010 ')-the high tilt moving frame kinetic energy (2020') + the water moving frame kinetic energy (2030). ') + Low moving frame kinetic energy (2040') = surplus energy (510)
+ Underwater track kinetic energy (1010 ') = (Underwater track weight (1011)-Underwater transport frame weight (2011)) x Flow rate (520) x Energy absorption rate (502) and + Underwater transport frame kinetic energy (2010') = Underwater frame weight (2011) x Flow rate (520)
High tilt frame kinetic energy (2020 ') = High moving frame weight (2021) x gravitational acceleration (530) x high track frame height (1023) x high track frame tilt (540) x gradient coefficient (542)
+ Water frame kinetic energy (2030 ') = water frame weight (2031) x gravity acceleration (530) x water track frame height (1031) x water frame tilt (541) x gradient coefficient (542)
+ Low moving frame kinetic energy (2040 ') = Low moving frame weight (2041) x gravitational acceleration (530) x low track frame height (1041) 511) to calculate the value
Here, the slope coefficient 542 is a constant defined as 0.5 based on the length 1 and the height 1
For length> height, calculate as (height / height) * gradient constant (542)
For length <height - 1 - ((length / height) * slope constant (542))
The energy absorption rate 502 is a coefficient obtained by experiments. The efficiency of the gears and the generators are applied to the hydrodynamic energy according to the flow velocity 520 and are converted to the underwater track kinetic energy 1010 '. It may be included in the tap water energy absorption rate 502 of the efficiency.
Underwater gravity moving module orbital circulation power, characterized in that the orbital circulation frame (1000), the mobile circulation frame (2000) and the orbital circulation box (4000) of the mobile orbital circulation frame (3000) are designed and manufactured to satisfy the above elements. Power Generation System (7000) The propeller 8210, the spiral propeller 8120, and the bevel gear 8210, the switching dependent bevel gear 8200, and the gearshift gear 8200 equipped with the propeller 8210, the spiral propeller 8120 and the switching bevel gear 8210 from the front end are maintained at regular intervals. A screw power generator 8600 having a screw generator 8500 coupled to the 8300, a clutch gear 8320, and a clutch 8400 is a screw propeller in an underwater gear chamber 8200 formed in a screw turbine chamber 8000. The switching bevel gear 8210 and the switching slave bevel gear 8220 and the switching slave bevel gear shaft 8222 which are mounted on the shaft 8130 are mounted, and the switching slave bevel gear shaft 8222 and the gearbox are accelerated to the orbital circulation box 4000. Screw propeller power generation system 9000, characterized in that the gear 8300, the clutch gear 8320, the clutch 8400 and the screw generator 8500 is mounted. A separate type and a screw turbine chamber, in which a screw turbine chamber 8000 of a screw propeller power generation system 9000 is independently coupled to each side of the underwater track frame 1010 of the mobile module orbital circulation power generation system 7000 with each partition wall. 8000 and the submerged trajectory frame 1010 is combined in an integrated manner to combine without the partition wall to form the submerged turbine track frame 120, the screw power generation device (8600) is orbital circulation with the submerged turbine track frame 120 ( Combined power generation system (100), characterized in that is mounted to 4000) The combined hydropower combined cycle power generation system according to claim 4, wherein the combined orbital circulation box 3000 is installed on both sides of the track circulation box 4000 fixed to the combined hydropower system 100. 110)

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