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Title:
PUMPED STORAGE TURBINE HYDROELECTRIC GENERATING SYSTEM
Document Type and Number:
WIPO Patent Application WO/2018/034624
Kind Code:
A1
Abstract:
Pumped storage turbine hydroelectric generating composes of vertical water base station or vertical water base station with inside hollow space for installing with side spreading out tube which connect back opened end of side spreading out tube to flow out water from inside hollow space or flow out water from water flowing in tube. The water flowing in tube is to be transmitted water from external source and flow into hollow space inside vertical water base station or back opened end of side spreading out tube directly to spread water out via front opened end to drive hydro driven blade which is a part of driven part of turbine. Turbine composes of turbine base tower of which its lower part connected to base foundation and its upper part connected upper platform which is installed with variable speed constant frequency generator inside. Water in back flow out tube is transmitted to drive water driving blade is to flow down to lower base station and storing before being pumped back to back opened end of side spreading out tube by water pump a pump.

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Inventors:
SUMRITVANITCHA, Supot (454 Charansanitwong Rd, Bang-O Bangplad, Bangkok, 10700, TH)
Application Number:
TH2017/000017
Publication Date:
February 22, 2018
Filing Date:
March 09, 2017
Export Citation:
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Assignee:
SUMRITVANITCHA, Supot (454 Charansanitwong Rd, Bang-O Bangplad, Bangkok, 10700, TH)
International Classes:
E03B11/10; E04H12/30; F03B13/06; F03D9/00; F03G3/00; G05D7/06; H02K7/18
Foreign References:
CN105830867A2016-08-10
US8492918B12013-07-23
US20090152871A12009-06-18
US20090107567A12009-04-30
US4284899A1981-08-18
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Claims:
Claims

1. Pumped storage turbine hydroelectric generating system having its special characteristics include vertical water base station (1) which is highly vertical tower with inside hollow space (2) for being installed with side spreading out tube (3) at least one tube, which

Side spreading out tuber (3) is opened end tube of which its back opened end is connected for being flowed in from inside hollow space (2) or from water flow in tube (8) at least one tube for letting water flow out from front end to drive hydro driven blade (4) of turbine driven control unit (5), which

Turbine driven control unit (5) composes of turbine tower (15) which is vertical stnicture or tower at least one tower of which its lower end connected with lower water storage station (6) of water flow in-out station (7), or installed with part of lower water storage station (6) of water flow in-out station (7), or installed beside of lower water storage station (6) of water flow in-out station (7) upon lower platform (10) and letting turbine tower (15) to be attached with upper station (16), which

Upper station (16) is outer station with station hollow (17) inside for installing with variable speed constant frequency generator (18), which

Variable speed constant frequency generator (18) is generator of which its part is driven pivot axle (19) extended out for attached with turbine hub (20) directly, or attached through in-out power mechanism unit (21 ), which

Turbine hub (20) is holding structure that attached at the front of upper station (16) and supporting to be installed with front end of driven pivot axle (19) extended directly or through in-out power mechanism unit (21) for driving along the force made by hydro driven blade (4) and transmitted propelling force from side spreading out tube (3) to driven pivot axle (19) that is extended out from variable speed constant frequency generator (18) to produce electricity and transmit to external source via power cable at least two lines, and

Water from side spreading out tuber (3), after it is driven hydro driven blade (4) is to flow down to lower water storage station (6) of water flow in-out station (7), and waiting to be transmitted back to back opened end of side spreading tube (3) by water pump (12) at least one pump. The pump may be functioned by electricity transmitted from solar cell, or electricity transmitted from biological energy source, or electricity transmitted from biomass energy source, or electricity transmitted from renewable energy source.

2. Pumped storage turbine hydroelectric generating system according to claim 1, vertical water base station (1) with inside hollow space (2) contains with water flow in tube (8) which is lengthy hollow tube at least one tube with upper opened end of water flow in tube (8) connected to inside hollow space (2) of vertical water base station (1) for flowing in water into inside hollow space (2). 3. Pumped storage turbine hydroelectric generating system according to claim 1, vertical water base station (1) contains with water flow in tube (8) which is lengthy hollow tube at least one tube with upper opened end of water flow in tube (8) connected to back opened end of side spreading out tube (3) directly for flowing water into side spreading out tube (3).

4. Pumped storage turbine hydroelectric generating system according to claim 1 , water flow in-out station (7) composes of lower water storage station (6) which is water storage located upon lower platform (10) or external structure that is constructed or composed as lower water storage station (6) on lower platform (10) for storing water flow from driving hydro driven blade (4) of turbine driven control unit 5 before transmitting back to water flow in tube (8).

5. Pumped storage turbine hydroelectric generating system according to claim 4, ground surface of lower water storage station (6) contains with leveling floor (11) at least one level for being lower water storage anid increasing depth of water storage space of lower water storage station (6) before transmitting back to water flow in tube (8).

6. Pumped storage turbine hydroelectric generating system according to claims 1, or 4-5, whichever claims, lower water storage station (6) or beside of lower water storage station (6) upon lower platform (10) contains of water pump (12) at least one pump installing for moving water to pump flow in channel (12) directly or moving water to pump flow in channel (12) through pump transmitted tube (13) and flow the water out at pump flow in channel (12) and transmitted to water flow in tube (8) directly, or flowing water to pump flow in channel (12) and transmitted to water flow in tube (8) through pump flow out tube (14) at least one tube.

7. Piimped storage turbine hydroelectric generating system according to claims 1-6, whichever claims, water flow in tube (8) contains of water control valve (9) at least one valve for controlling flow of water from external source to water flow in tube (8).

8. Pumped storage turbine hydroelectric generating system according to claim 1, in-out power mechanism umt (21) is structure contained with in-out power mechanism inside installed for supporting with the attaching of front end of driven pivot axle (19) that is extended out from power transmitting bar (24), which

Power transmitting bar (24) is bar or tube attached with turbine hub (20) for supporting the movement of turbine hub (20) to transmit force to driven pivot axle (19) stretching out from variable speed constant frequency generator (18).

9. Pumped storage turbine hydroelectric generating system according to claims 1, or 4-6, whichever claims, lower water storage station (6) or beside lower water storage station (6) upon lower platform (10), there contains with electricity transformer unit (25) which is the unit to transform electricity power from variable speed Constant frequency generator (18) through power cable at least two lines to transform electricity power to be in required stage before transmitted to external power network via power cable at least two lines.

10. Pumped storage turbine hydroelectric generating system according to claim 1, beside turbine hub (20), there contains with supporting station (23) which is socket edging out or concaving in for supporting installation with inner end of hydro driven blade (4) directly or supporting the installing with outside holding unit (22).

1 ί . Pumped storage turbine hydroelectric generating system according to claim 1, hydro driven blade (4) composes of hydro driven gutter (26) which is lengthy gutter with lengthy groove (27) for supporting the water flow drive transmitted from side spreading out tube (3). Meanwhile, the back of hydro driven gutter (26) is installed with the side of turbine hub (20), or installed with supporting station (23) by attaching method.

12. Pumped storage turbine hydroelectric generating system according to claim 11, inside of lengthy groove (27) of hydro driven gutter (26) contains of inside gutter blockage (28) which is straight block or italic block at least one block for separation hydro driving force transmitted from side spreading out tube (3). 13. Pumped storage turbine hydroelectric generating system according to claims 11-12, whichever claims, the front opened end of hydro driven gutter (26) contains of curved down gutter (29) for separating flow of water while hydro driven gutter (26) is driven to move down by water flow transmitted from side spreading out tube (3).

14. Pumped storage turbine hydroelectric generating system according to claims 11-13, whichever claims, along the lower part of hydro driven gutter (26), there contains with gutter lower angle (30) being bottom part lengthy angle of hydro driven gutter (26) which is continuous or discrete set for having aerodynamic effect in movement while hydro driven gutter (26) is moved down by water flow transmitted from side spreading out tube (3).

15. Pumped storage turbine hydroelectric generating system according to claims 11-14, whichever claims, the front opened end of hydro driven gutter (26) is gutter weight balancing unit (31 ) which is weight balancing unit that is a part of hydro driven gutter (26).

16. Pumped storage turbine hydroelectric generating system according to claims 11-15, whichever claims, at least one side edge of hydro driven gutter lengthy groove (27) of hydro driven gutter (26), there contains with gutter supporting edge (32) which is supporting edge along continuously or discretely to prevent the spilling of water flow out from lengthy groove (27).

17. Pumped storage turbine hydroelectric generating system according to claims 11-16, whichever claims, the back of hydro driven gutter (26) contains of outside holding unit (22) which is tube in from outside, or outer holding structure for supporting the installing with the side of turbine hub (20) directly or installed with supporting station (23) of turbine (20) by attaching method: 18. Pumped storage turbine hydroelectric generating system according to claim 1, hydro driven blade (4) composes of hydro driven tube (33) which is lengthy tube of which its side is structured with lengthy tube groove (34) for supporting the water flow drive transmitted from side spreading out tube (3). Meanwhile, the back of hydro driven tube (33) is installed with the side of turbine hub (20), or installed with supporting station (23) by attaching method pumped storage turbine hydroelectric generating system according to claim 18, inside of lengthy tube groove (34) of lengthy tube (33) contains of inside tube blockage (35) which is straight block or italic block at least one block for separation hydro driving force transmitted from side spreading out tube (3).

19. Pumped storage turbine hydroelectric generating system according to claims 18-19, whichever claims, the front opened end of hydro driven tube (33) contains of curved down groove (36) for separating flow of water while hydro driven tube (33) is driven to move down by water flow transmitted from side spreading out tube (3).

20. Pumped storage turbine hydroelectric generating system according to claims 18-20, whichever claims, along the lower part of hydro driven tube (33), there contains with tube lower angle (37) being bottom part lengthy angle of hydro driven tube (33) which is continuous or discrete set for having aerodynamic effect in movement while hydro driven tube (33) is moved down by water flow transmitted from side spreading out tube (3).

21. Pumped storage turbine hydroelectric generating system according to claims 18-21, whichever claims, the front opened end of hydro driven tube (33) is tube weight balancing unit (38) which is weight balancing unit to increase centrifugal force of hydro driven tube (33).

22. Pumped storage turbine hydroelectric generating system according to claims 18-22, whichever claims, at least one side edge of tube lengthy tube groove (34) of hydro driven tube (33), there contains with tube supporting edge (39) which is supporting edge along continuously or discretely to prevent the spilling of water flow out from lengthy tube groove (34). pumped storage turbine hydroelectric generating system according to claims 18- 23, whichever claims, the back of hydro driven tube (33) contains of outside holding unit (22) which is tube in from outside, or outer holding structure for supporting the installing with the side of turbine hub (20) or installed with supporting station (23) of turbine (20) by attaching method.

Description:
Detail of the Invention Title of Invention PUMPED STORAGE TURBINE HYDROELECTRIC GENERATING SYSTEM

Technical Field

Engineering related to pumped storage turbine hydroelectric generating system

Background of Arts

Refer to Thai Patent number 1601001046 that shows pump hydroelectric composes of solar panel that converts energy from light to electricity and transmits part of it to in-out water pump for suctioning circulating water from inside storage to injector nozzle to inject water to impeller located between impeller base at the top of water level inside storage. Another part of impeller base, there contains of lower part of rolling bar attached for rolling along the force transmitted impeller base, while the top end is inserted through top structural base. It contains of driving gear rolling along the rolling of rolling bar together with driving gear axle. Driving gear axle is connected to generator before the generator transmits electricity to connecting outside structure.

From the characteristic of Thai Patent Application no. 1601001046 as said above, its limitation includes that electricity generating system is on horizontal plane and consumes large quantity of space in installing and setup the system.

Therefore, it is not suitable for using in limited space or the place where its cost is expensive.

Characteristic and Purpose of this Invention

Pumped storage turbine hydroelectric generating composes of vertical water base station or vertical water base station with inside hollow space for installing with side spreading out tube which connect back opened end of side spreading out tube to flow out water from inside hollow space or flow out water from water flowing in tube. The water flowing in tube is to be transmitted water from external source and flow into hollow space inside vertical water base station or back opened end of side spreading out tube directly to spread water out via front opened end to drive hydro driven blade which is a part of driven part of turbine. Turbine composes of turbine base tower of which its lower part connected to base foundation and its upper part connected to upper platform which is installed with variable speed constant frequency generator inside. The variable speed constant frequency generator contains of pivot stretching out to be transmitted driving force from turbine hub directly or being transmitted driving force from power sending-receiving mechanism unit. Turbine hub is installed with tail of water driven blade to drive and roll along with water driven blade and transmitting such driving force to pivot that is stretching out from variable speed constant generator and produce electricity and transmitting to external unit via conductor. Water in back flow out tube is transmitted to drive water driving blade is to flow down to lower base station and storing before being pumped back to back opened end of side spreading out tube by water pump at least one pump.

The purpose of this invention is to have pump storage turbine hydroelectric generating system in vertical plane, requiring less space in installing than horizontal type. The water flow down in vertical plane that drives water driving blade of water driven unit and flow into lower water storage, waiting for being transmitted to higher station to drive water driving blade of water driven unit again.

Brief Description of Drawings

Figure 1, it shows pumped storage turbine hydroelectric generating system according to this invention.

Figure 2, it shows pumped storage turbine hydroelectric generating system according to this invention in another style. Figure 3, it shows water driven blade of pumped storage turbine hydroelectric generating system according to this invention.

Figure 4, it shows another style of water driven blade of pumped storage turbine hydroelectric generating system according to this invention.

Disclosure of Invention

According to figure 1, it shows pumped storage turbine hydroelectric generating system according to this invention. It composes of vertical water base station 1 which is highly vertical tower with inside hollow space 2 for being installed with side spreading out tube 3 at least one tube, which

Side spreading but tube 3 is opened end tube of which its back end is connected to inside hollow space 2 of vertical water base station 1 for letting water flow from inside hollow space 2 of vertical water base station 1 and flowing but water at the front opened end of side spreading out tube 3 to drive hydro driven blade 4 of turbine driven control unit 5 directly and let the water flow down to lower water storage station 6 of water flow in-out station 7, or

Front opened end of side spreading out tuber 3 is supported for connecting with external water pressure enhancing unit, for example, water control valve, or connecting with tapered tube with smaller size front ends, for instance. The external pressure enhancing unit is to increase water pressure before the flow is to drive hydro driven blade 4 of turbine driven control unit 5 and let the water flow down to lower water storage station 6 of water flow in-out station 7, and

Vertical water base station 1 contains with water flow in tube 8 which is lengthy hollow tube at least one tube with upper opened end of water flow in tube 8 connected to inside hollow space 2 of vertical water base station 1 for flowing in water from external source into inside hollow space 2 of vertical water base station !, or

Upper opened end or beside of water flow in tube 8 is connected to back opened end of side spreading out tube 3 for flowing water into side spreading out tube 3 directly, and Water flow in tube 8 contains of water control valve 9 at least one valve for controlling flow of water from external source to water flow in tube 8, and Water flow in-out station 7 composes of lower water storage station 6 which is water storage located upon lower platform 10 or external structure that is constructed or composed as lower water storage station 6 on lower platform 10 for storing water flow from driving hydro driven blade 4 of turbine driven control unit 5 before transmitting back to water flow in tube 8, or

Ground surface of lower water storage station 6 contains with leveling floor 11 at least one level for being lower water, storage and increasing depth of water storage space of lower water storage station 6 before transmitting back to water flow in tube 8, and

Lower water storage station 6 or beside of lower water storage station 6 iipon lower platform 10 contains of water pump 12 at least one punip installing. The pump may be functioned by electricity transmitted from solar cell, or electricity transmitted from biological energy source, or electricity transmitted from biomass energy source, or electricity transmitted from renewable energy source. The pump is operating by moving water from lower water storage station 6 to pump flow in channel 12 directly or moving water from lower water storage station 6 to pump flow in channel 12 through pump transmitted tube 13 and flow the water out at pump flow in channel 12 and transmitted to water flow in tube 8 directly, or flowing water to pump flow in channel 12 and transmitted to water flow in tube 8 through pump flow out tube 14, and

Turbine driven control unit 5 composes of turbine tower 15 which is vertical structure or tower at least one tower of which its lower end connected with lower water storage station 6, or

Lower part of turbine tower 15 is installing on part of lower water storage station 6, or

Lower part of turbine tower 15 is installing on the side of lower water storage station 6 upon lower platform 10 for attaching upper part of turbine tower 15 with lipper station 16, which Upper station 16 is outer station with station hollow 17 inside for installing with variable speed constant frequency generator 18, which

Variable speed constant frequency generator 18 is generator that is installed within station hollow 17 of upper station 16. Part of variable speed constant frequency generator 18 is driven pivot axle 19 extended out for attached with turbine hub 20 directly, or attached through in-out power mechanism unit 21 to generate electricity and transmitting to external source through power cable at least two lines (not shown in figure), which

Turbine hub 20 is holding structure that attached at the front of upper station 16 and supporting to be installed with front end of driven pivot axle 19 extended directly or through in-out power mechanism unit 21 for driving along the force made by hydro driven blade 4 and transmitted propelling force to driven pivot axle 19 that is extended out from variable speed constant frequency generator 18, and

Beside of turbine hub 20, it is installed with inner end of hydro driven blade 4 at least two blades directly by attaching it together, for example, welding, or splicing together by outside holding bar, for instance, or holding through outside holding unit 22 for supporting water pressure transmitted from side spreading out tube 3 to drive rhythmical by the propelling force transmitted in, or Beside turbine hub 20, there contains with supporting station 23 which is socket edging out or concaving in (not shown in the figure) for supporting installation with inner end of hydro driven blade 4 directly or supporting the installing with outside holding unit 22, and

In-out power mechanism unit 21 is structure contained with in-out power mechanism inside (not shown in the figure) installed for supporting with the attaching of front end of driven pivot axle 19 that is extended out for increasing propelling force or reducing propelling force or stabilizing the movement from transmitting propelling force from power transmitting bar 24, which

Power transmitting bar 24 is bar or tube of which its back end is attached with inner in-out power transmitting unit (not shown in the figure) of in-out power mechanism unit 21. Front end of power transmitting bar 24 is attached with turbine hub 20 for supporting the movement of turbine hub 20 to transmit force to driven pivot axle 19 stretching out from variable speed constant frequency generator 18, and

Lower water storage station 6 or beside lower water storage station 6 upon lower platform 10, there contains with electricity transformer unit 25 which is the unit to transform electricity power to be higher or lower or transform alternating current to direct current or direct current to alternating current as required by user. The transformer is to be transmitted electricity power from variable speed constant frequency generator 18 through power cable at least two lines (not shown in the figure) to transform electricity power to be in required stage before transmitted to external power network via power cable at least two lines (not shown in the figure).

According to figure 2, it shows pumped storage turbine hydroelectric generating system in another characteristic. It composes of vertical water base station 1 which is highly vertical tower for being installed with side spreading out tube 3 at least one tube, which

Side spreading out tuber 3 is opened end tube of which its back opened end is connected for being flowed in with water from water flow in tube 8 at least one tube for letting water flow out from front end of side spreading out tube 3 to drive hydro driven blade 4 of turbine driven control unit 5 and let the water flow down to lower water storage station 6 of water flow in-out station 7, or

Front opened end of side spreading out tuber 3 is supported for connecting with external water pressure enhancing unit, for example, water control valve, or connecting with tapered tube with smaller size front ends, for instance. The external pressure enhancing unit is to increase water pressure before the flow is to drive hydro driven blade 4 of turbine driven control unit 5 and let the water flow down to lower water storage station 6 of water flow in-out station 7, and Vertical water base station 1 contains with water flow in tube 8 which is lengthy hollow tube at least one tube with opened end on top or beside connected to back opened end of side stretching out tube 3 for letting water flow out from front opened end of side stretching out tube 3 to drive hydro driven blade 4 of turbine driven control unit 5 and let the water flow down to lower water storage station 6 of water flow in-out station 7, and

Water flow in tube 8 contains of water control valve 9 at least one valve for controlling flow of water from external source to water flow in tube 8, and

Water flow in-out station 7 composes of lower water storage station 6 which is water storage located upon lower platform 10 or external structure that is constructed or composed as lower water storage station 6 on lower platform 10 for storing water flow from driving hydro driven blade 4 of turbine driven control unit 5 before transmitting back to water flow in rube 8, or

Ground surface of lower water storage station 6 contains with leveling floor 11 at least one level for being lower water storage and increasing depth of water storage space of lower water storage station 6 before transmitting back to water flow in tube 8, and

Lower water storage station 6 or beside of lower water storage station 6 upon lower platform 10 contains of water pump 12 at least one pump installing. The pump may be functioned by electricity transmitted from solar cell, or electricity transmitted from biological energy source, or electricity transmitted from biomass energy source, or electricity transmitted from renewable energy source. The pump is operating by moving water from lower water storage station 6 to pump flow in channel 12 directly or moving water from lower water storage station 6 to pump flow in channel 12 through pump transmitted tube 13 and flow the water out at pump flow in channel 12 and transmitted to water flow in tube 8 directly, or flowing water to pump flow in channel 12 and transmitted to water flow in tube 8 through pump flow out tube 14, and Turbine driven control unit 5 composes of turbine tower 15 which is vertical structure or tower at least one tower of which its lower end connected with lower water storage station 6, or

Lower part of turbine tower 15 is installing on part of lower water storage station 6, or

Lower part of turbine tower 15 is installing on the side of lower water storage station 6 upon lower platform 10 for attaching upper part of turbine tower 15 with upper station 16, which

Upper station 16 is outer station with station hollow 17 inside for installing with variable speed constant frequency generator 18, which

Variable speed constant frequency generator 18 is generator that is installed within station hollow 17 of upper station 16. Part of variable speed constant frequency generator 18 is driven pivot axle 19 extended out for attached with turbine hub 20 directly, or attached through in-out power mechanism unit 21 to generate electricity and transmitting to external source through power cable at least two lines (not shown in figure), which

Turbine hub 20 is holding structure that attached at the front of upper station 16 and supporting to be installed with front end of driven pivot axle 19 extended directly or through in-out power mechanism unit 21 for driving along the force made by hydro driven blade 4 and transmitted propelling force to driven pivot axle 19 that is extended out from variable speed constant frequency generator 18, and

Beside of turbine hub 20, it is installed with inner end of hydro driven blade 4 at least two blades directly by attaching it together, for example, welding, or splicing together by outside holding bar, for instance, or holding through outside holding unit 22 for supporting water pressure transmitted from side spreading out tube 3 to drive rhythmical by the propelling force transmitted in, or Beside turbine hub 20, there contains with supporting station 23 which is socket edging out or concaving in (not shown in the figure) for supporting installation with inner end of hydro driven blade 4 directly or supporting the installing with outside holding unit 22, and

In-out power mechanism unit 21 is structure contained with in-out power mechanism inside (not shown in the figure) installed for supporting with the attaching of front end of driven pivot axle 19 that is extended out for increasing propelling force or reducing propelling force or stabilizing the movement from transmitting propelling force from power transmitting bar 24, which

Power transmitting bar 24 is bar or tube of which its back end is attached with inner in-out power transmitting unit (not shown in the figure) of in-out power mechanism unit 21. Front end of power transmitting bar 24 is attached with turbine hub 20 for supporting the movement of turbine hub 20 to transmit force to driven pivot axle 19 stretching out from variable speed constant frequency generator 18, and

Lower water storage station 6 or beside lower water storage station 6 upon lower platform ίθ, there contains with electricity transformer unit 25 which is the unit to transform electricity power to be higher or lower or transform alternating current to direct current or direct current to alternating current as required by user. The transformer is to be transmitted electricity power from variable speed constant frequency generator 18 through power cable at least two lines (not shown in the figure) to transform electricity power to be in required stage before transmitted to external power network via power cable at least two lines (not shown in the figure).

According to figure 3, it shows hydro driven blade 4 of pumped storage turbine hydroelectric generating system of this invention. It composes of hydro driven gutter 26 which is lengthy gutter with lengthy groove 27 thorough along the line from front opened end to back opened end or being lengthy groove 27 that is not thorough along the line from front opened end to back opened end for supporting the water flow drive transmitted from side spreading out tube 3. Meanwhile, the back of hydro driven gutter 26 is installed with the side of turbine hub 20 directly, or installed with supporting station 23 of turbine hub 20 by attaching method, or splicing together by outside holding bar, for instance, or The back of hydro driven gutter 26 contains of outside holding unit 22 which is tube in from outside, or outer holding structure for supporting the installing with the side of turbine hub 20 directly or installed with supporting station 23 of turbine 20 by attaching method, for example, welding, and

Inside of lengthy groove 27 contains of inside gutter blockage 28 which is straight block or italic block at least one block for separation hydro driving force transmitted from side spreading out tube 3, and

The front opened end of hydro driven gutter 26 contains of curved down gutter 29 for separating flow of water while hydro driven gutter 26 is driven to move down by water flow transmitted from side spreading out tube 3, and

Along the lower part of hydro driven gutter 26, there contains with gutter lower angle 30 being bottom part lengthy angle of hydro driven gutter 26 which is continuous or discrete set for having aerodynamic effect in movement while hydro driven gutter 26 is moved down by water flow transmitted from side spreading out tube 3, and

The front opened end of hydro driven gutter 26 is gutter Weight balancing unit 31 which is weight balancing unit that is a part of hydro driven gutter 26 or external weight balancing unit attached to hydro driven gutter 26 to increase centrifugal force of hydro driven gutter 26 when it is moved down by water flow transmitted from side spreading out tube 3, and

At least one side edge of hydro driven gutter lengthy groove 27, there contains with gutter supporting edge 32 which is supporting edge along continuously or discretely to prevent the spilling of water flow out from lengthy groove 27 while hydro driven gutter 26 is moved down by water flow transmitted from side spreading out tube 3.

According to figure 4, it shows hydro driven blade 4 of pumped storage turbine hydroelectric generating system of this invention. It composes of hydro driven tube 33 which is lengthy tube of which its side is structured with lengthy tube groove 34 thorough along the line from front opened end to back opened end or being lengthy tube groove 34 that is not thorough along the line from front opened end to back opened end for supporting the water flow drive transmitted from side spreading out tube 3. Meanwhile, the back of hydro driven tube 33 is installed with the side of turbine hub 20 directly, or installed with supporting station 23 of turbine hub 20 by attaching method, or splicing together by outside holding bar, for instance, or

The back of hydro driven tube 33 contains of outside holding unit 22 which is tube in from outside, or outer holding structure for supporting the installing with the side of turbine hub 20 directly or installed with supporting station 23 of turbine 20 by attaching method, for example, welding, and

Inside of lengthy tube 33 contains of inside tube blockage 35 which is straight block or italic block at least one block for separation hydro driving force transmitted from side spreading out tube 3, and

The front opened end of hydro driven tube 33 contains of curved down groove 36 for separating flow of water while hydro driven tube 33 is driven to move down by water flow transmitted from side spreading out tube 3, and

Along the lower part of hydro driven tube 33, there contains with tube lower angle 37 being bottom part lengthy angle of hydro driven tube 33 which is continuous or discrete set for having aerodynamic effect in movement while hydro driven tube 33 is moved down by water flow transmitted from side spreading out tube 3, and

The front opened end of hydro driven tube 33 is tube weight balancing unit 38 which is weight balancing unit that is a part of hydro driven tube 33 or external weight balancing unit attached to hydro driven tube 33 to increase centrifugal force of hydro driven tube 33 when it is moved down by water flow transmitted from side spreading out tube 3, and

At least one side edge of tube lengthy tube groove 34, there contains with tube supporting edge 39 which is supporting edge along continuously or discretely to prevent the spilling of water flow out from lengthy tube groove 34 while hydro driven tube 33 is moved down by water flow transmitted from side spreading out tube 3.

Pumped storage turbine hydroelectric generating system of this invention is vertical pumped storage turbine hydroelectric generating system that requires space less than horizontal hydroelectric generating system. Moreover, water flowing down that drives hydro driven blade of turbine driven unit is drained down to below storage and is able to transmit up to top part to reuse again and flowing down vertically to drive hydro driven blade of turbine driven unit again, and

From this pumped storage turbine hydroelectric generating system, it is power generating system that reuses the water in the system to drive hydro driven blade of turbiiie driven unit. It reduces the requirement in water supply in power generating. Moreover, the power generating system could produce electricity from rain which is the separated part used in agriculture sector.

Best Mode for Carrying out the Invention

As the same as described in Complete Disclosure of this Invention section.