UA132319U - FLOOD HYDRO-POWER PLANT - Google Patents

Abstract

Hydroelectric power station comprises a platform stabilized by a rudder (2), (3) on which a vertical support is mounted, at the upper part of which is mounted a horizontal support which rotates around it, on which is located the blades of the drive actuator (8), which is controlled by the rudder (9) ). To improve efficiency, efficiency, reliability and simplification of the design, an electric generator 7 is installed on the axis of the wind drive, and the main module (4) and additional similar modules (25), (29) and turbo fans (30), (32) are installed on the platform.

Description

I gra he Z ha lochzh eh ki gu I skh r KU. ak - KZ s xx nu g a she me x I what I

Yes, today Kve ee dinya Shinenkh still tk zhh x. schi Ni g. 7 Kan nya Um i u Km i Kk uyu he tku eat ni pah kyu iy hat ZHAV IKALALALALALLAA NA VA TYA i UA AA V AAZH AK ATAAAAAAADY

N ta y che t N g I Ki o: i N t m i h N V i . х и ше I х хх g - y; i oi is E zhala N t i I - i - x : y

N BI: ne So ho mi SHH i - Ki what: Pod ku i pe o KO MI VE NYA She t shk N danikh i ke i o o shi i: khh m i i y shi ! Fri

Uh i nY ku x yeh dnu Ya zey, nih Ko

SCHO re N 2 ky: : I a SHE SHE: ek OK o Te

EAR, and OVK of the SHIKI Ki and ASU; p.: BAMI still KON V A No I s p N RK ro Kn N BE ek o: to om, : i i i o v Za NI et rol : ; t і і і N 1 х і і і не : Z ш- і Н , pplzhkyuAyuYa n STILL I: and OK | Her. I sht: pyt' -- і: N N Yah ". de: ti SCHE N ve how: vi I i; kny DN A n dah N veni Konya BU n N 1 p. in zoryu N -k. with N she r N kit vih "ki : N 8 i N ! ; Y Roche | : fan N UP e

SU N! : i N : : AT N tt : N pcs

B E I I! nshk keKIE In Yuei vysh SHE sho mini : Ne ro ; I OBO i i r-n pe nin nin a NI pn NN s i i | No pi pi CHIN ZNYA nin Shi y ! ra! it's my fault I'm NOT! : ie MK z i som pa g ya : : r-n penya yi Y N Okh izn u : N ke i N nie I i oreh y I : N gu : i ref Z ne yi : roi ih : i r Й ! KO; and : and She poems

N g 4 TI | : and : ; penya vro! ! I'm Kaya N! and gu Turlnnifnnn titi Z : Tk ! H Ton H : p DT i eku 1 7. and ! E me NN: Me and them: ! : KE LYH... : i I ich N x : i i | : N ki

Eat! N o: N : Ko N Gr I : mn i roi : z puh o: ? and N ii | ri ny: WE Me NY CHI her : KE shishnsh nE chn yn ne NI she : Her b. : : 3 : m her. wild Y V er ne y : y ne N sce DYNY 17 vm SHY NE M ana NI NN Ne pa ve odn nya : še «o

AJ : NO: Tang ; and WE : and t o: th i ri hi ak i N - KO dan Ts Code peshi on i ONY SHY Shi! not Zk doc, not : i and N Mi OA Y z KO

TA dent Y Y : ti E and ha : | sih Her, and VM: mice pdknttnnnalya nyti : : go 7 udezhzhyejuzhuttyuyuyatyuaya Z donnnnia vom nin Fet pitnya I N pOMOYA : TO my Koi N YN N yi : NN

IY AAU and s nyshshshid j shchih et 3 shi she she she sne ne i NE i soOshsheshshshe

U chu Mei p i x S Y : N X KO I : iya i che I; and:

Od: CHIN! N z i N U SHIK Co

Man Oh DN DYN A A VA A gi : x I : Raya x : ge she : kash : ku SHO ro NYA ze We will be nn N ee 7 x. se ho I

But skh N and ; Ta y, ho and i

SDN n An

NN: Oh mk E and those g NI ih U o t Z y t ' kh, klshe dos Ge Ki kh var

Ka sa; Y: eye an Ya she

Ba Ko x KE i / : am. ho wan am NOT Everyone

KU in life: by us and oh and KhMK p p

I slchAAAAALAL At zhi UM tt tt tt ЖК ЖЖ Ж I KKU TU U Uh ili pa nn 7 pl АЖАААКК КАХ КК В Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж Ж

DG and

The useful model belongs to the field of energy, in particular to devices capable of converting inexhaustible free energy of current and wind into mechanical energy with further conversion and accumulation into environmentally friendly, cheap electrical energy and supplying it to the user of electricity, to the central electrical network of the state without the construction of complex hydrotechnical structures and fuel consumption and violations of the ecology and topography of the river, as well as for recharging batteries and transferring electricity to water transport and local use.

The obtained cheap electricity allows you to preserve for future generations the sources of energy (oil, gas, coal) lying in the bowels of the earth.

The well-known "Damless hydroelectric power station on a free stream" (M.G. Pankov, I.P. Kravchenko,

Dolinsky A.A., Shurchkov A.V. Patent for the invention OA Mo 58294А dated 15.07.2003) consists of assembly modules in the number corresponding to the installed capacity of the station, hingedly connected to each other in the form of garlands, immersed in a river or in a marine water area with an underwater current, and each module consists of a frame , made of large-diameter pipes, which acts as a primary reservoir of river or sea water, which is pumped into it by hydraulic pumps with hydraulic drives, two pontoons and a set of hydraulic drives, coaxially connected with hydraulic pumps, located coaxially with hydraulic drives, two pontoons and a set of hydraulic drives, coaxially connected with hydraulic pumps, and all the garlands are connected by means of a flexible water pipe to the secondary storage receiving collector located in the coastal part of the reservoir or on its shore.

The hydroelectric power plant has a receiving manifold together with garlands of modules attached to it by means of flexible water pipes, connected on one side to a pressure manifold mounted together with the main hydro turbine of the power plant, coaxially connected to the generator, on a floating or shore-mounted platform, and on the other side with a stabilizing collector of pressure and flow of water to the turbine, made in the form of a water tower or a pipe, or a pipeline, inclined on supports or vertical on the foundation, mounted on the shore of the reservoir and equipped with a drainage hole (valve) and a non-return valve at a given height from the water cut in the reservoir pipeline mounted similarly and directed into the reservoir to discharge excess water and, thereby, to prevent

Due to increased pressure on the turbine.

If there are no high banks at the place of installation of the hydroelectric power plant, the stabilizing manifold can be replaced by one or more threshold valves installed on the intake or pressure manifolds to limit the maximum water pressure on the turbine created by the hydraulic pumps of the modules through the intake and pressure manifolds.

Analogous hydroelectric power stations for the Gulf Stream are described in the magazine "Technology of Youth"

Mo. 11/12 for 1998

The disadvantages of the above-mentioned "damless hydro-electricity" include the complexity of the design, low efficiency, being tied to a specific location, the need to build a water tower, the lack of the ability to transfer electricity to the state grid, the transfer of electricity to water transport, and the lack of use of wind energy.

The closest in terms of technical essence and the positive effect that is achieved to the well-known "Floating hydro-wind power plant" is the patent for the utility model Sha Mo 914), which by converting the energy of waves and wind into the rotational movement of the flywheel and is made in the form of a raft and has a rudder and horizontal risers, the energy converter is made in the form of screws fixed on these risers with the possibility of rotation around its axis, and the vertical support is fixed on the base with the possibility of rotation around the vertical axis, it has a rudder and a wind device with blades is installed on it, while the energy converter and the wind device connected to an electric generator located on the base, connected to a transformer substation.

The disadvantage of the "floating hydro-wind power plant" is: the complexity of the design of the energy converter from the wind device to the electric generator when the wind device rotates around the vertical axis with a large number of friction-creating parts, which leads to a decrease in efficiency; the presence of friction in the wind energy converter to the electric generator and in the propeller energy converter to the generator, together with inefficient propellers, can lead to the stoppage of the "floating hydro-wind power plant" when the wind is reduced or absent; insufficient efficiency of propellers and efficiency is caused by the decomposition of the force of the river current into frontal (negative) and rotational (positive).

The useful model is based on the task of transforming the continuous free inexhaustible energy of current and wind into mechanical energy with further transformation and 60 accumulation into ecologically clean, cheap electrical energy and supplying it to the user, to the central electrical network of the state without the construction of complex hydrotechnical structures and fuel consumption and violations ecology and topography of the river, as well as for recharging batteries and transmitting electricity to water transport and for local use.

The set task (reducing the friction force, increasing the efficiency) is achieved by the fact that the known solution is made in the form of a platform that has a rudder and a vertical support fixed on a base with the possibility of rotation around a vertical axis, and a wind device with blades is installed on it, which has a rudder, and the proposed solution differs in that the energy of a wind device with blades is transformed into a generator located with a wind drive, which solves the issue of the complexity of the structure of the presence of friction, the possibility of stopping the hydroelectric power plant and increasing the efficiency.

To improve efficiency and increase efficiency and when using low water speed in the river, a front vertical paired gear wheel of a smaller diameter and a rear vertical paired gear wheel of a larger diameter are installed on the base of the raft, which are connected to each other by a perforated tape with curved blades fixed on it. which are hingedly folded, which in the unfolded form set the tape in motion under the action of the current with the simultaneous full use of all open blades and the entire useful surface of the blades without splitting the force of the current into positive and negative, when going against the current, they automatically fold and enter the zone of stagnant water, created by the wing.

The use of a paired wheel of a large diameter is aimed at increasing the efficiency by adding the main and forced force of the river current and the additional force of the lever of the second kind (the wheel, the efficiency of which is greater than 8095) to rotate the rotor of the electric generator, mechanically connected to the axis of the large gear wheel with the help of a multiplier.

If necessary, in order to maintain a stable frequency of revolutions and increase the efficiency, an electric motor can be installed on the platform to provide, due to the lever of the second kind of large-diameter gear wheel, additional power to the power of the river current in the drive of the electric generator, connecting it electromechanically in automatic mode around the circle of the large paired gear wheel. Flywheels are also used in the design to stabilize the rotations of the electric generator.

To increase the efficiency and efficiency of the "floating hydro-wind power plant" and support

From the transmission of electricity to the central power grid of the state, it is possible to install, in addition to the main module, parallel similar modules (without an electric generator), mechanically connected to the main module, on which the electric generator is located, and it is also possible to install turbofans between the large rear wheels of parallel additional modules in a high-speed city water currents mechanically connected to propellers, the rotation of which creates a forced water flow, which increases the efficiency of the floating hydro-wind power plant, both in series and in parallel.

The identity and similarity of the modules makes it possible to install hydro-wind power plants not only in parallel, but also in series without restrictions.

The essence of the useful model is explained by the drawing.

The diagram tentatively shows the modules located on the "Floating Hydro-Wind Power Plant" platform.

The floating hydro-wind power plant includes a platform 1 located on floating pallets (not shown in the diagram), which is stabilized by rudders 2 and 3. On the platform 1, the main module 4 is installed, which contains a vertical support 5, in the upper part of which a horizontal support is installed around the vertical support axis b, which rotates, on which are located the electric generator 7, the blades of the wind drive 8, which is controlled by the steering wheel 9. On the vertical support 5, a front vertically coupled gear wheel of smaller diameter 10 is installed with the possibility of rotation around it, which rotates with the help of perforated bands of the upper 11 and the lower (not shown in the diagram) with curved blades 12 fixed on it, which are hingedly folded, on the edge of which a roller 13 is installed in the upper part, necessary for folding and unfolding the blades. The belt 11 also rotates the rear vertically paired gear wheel of a larger diameter 14, around which a flywheel is installed, which is necessary to stabilize the speed of rotation of the wheel in the presence of rapid disturbances in the direction and strength of the current, as well as in the case of rapid changes in the electrical load on the electric generator 15, which is set in motion from the paired gear wheel of a larger diameter 14 with the help of the multiplier 16.

For the automatic folding of the curvilinear blades 12, which are hingedly folded, a rotating rolling pressure roller 17 and a fixed pressure arc 18, located next to the gear wheel 14, are used, and for automatic unfolding, a fixed repulsive inclined arc of a shaped shape 19, located next to the gear wheel of a small one, is used diameter 10 under the arrow-shaped shaped wing 20, which is necessary for correcting the flow of water for reliable opening of the blades.

To increase the efficiency and efficiency of the water flow, a baffle 21 is installed.

The gear wheel 14 is electromechanically connected in automatic mode to the electric motor 22, which provides the possibility of installing an electric generator of increased power due to additional power.

The rear vertically coupled gear wheel of a larger diameter 14 of the main module 4 is connected with the help of a perforated tape 23 to the rear vertically coupled gear wheel of a larger diameter 24 of an additional similar module 25, on which the streamlined wing 26 is located, and with the help of a perforated tape 27 - to the rear vertically coupled gear wheel of a larger diameter 28 of an additional similar module 29.

Between the main module 4 and the additional module 25, a turbine 30 is installed, on the shaft of which there is a fan 31, and between the main module 4 and the additional module 29, a turbine 32 is installed, on the shaft of which there is a fan 33 for a forced increase in the speed and pressure of water on the blades of the modules, which also useful for serial modules 34, 35.

A floating hydro-wind power plant works due to the continuous free energy created by the force of the water current, the force of the wind, as well as mechanical energy due to the electric motor and the lever of the second kind (spindle). Natural continuous free flow of water, directed along the main module 4 (see diagram) and additional identical modules 25 and 29, interacting with open and numerical blades of curvilinear form 12, vertically fixed on the upper perforated tape 11 and the identical lower perforated tape (not shown in the diagram shown), due to the continuous free force causes it to move continuously in a straight line, driving the vertically coupled gear wheel of smaller diameter 10 and the vertically coupled gear wheel of larger diameter 14 of the main module 4 and identical modules 25 and 29. For automatic assembly of curved blades 12 a rotating roller 13 is used, which due to the movement of the tapes 11, passing the stationary pressure arc 18 and the pressure roller 17, folds the blades of a curvilinear shape 12, reducing the resistance to the opposite movement of the blades in stagnant water, which is created by the shaped arrow-shaped wing 20. The folded blades fixed on the tapes 11, fit to fi gurnoy arch 19 next to

With a paired gear wheel of a smaller diameter 10. The roller 13, located on the blades of a curvilinear shape 12, automatically runs into an inclined curved arc 19. At the same time, the blades of a curvilinear shape 12 automatically open. The water flow, running into the curved wing of an arrow-shaped shape 20, is divided into two streams , one of which is an auxiliary flow and is directed to the open blades of the curved shape of the additional module 29. The other separated flow from the swept wing 20 is directed to the automatically opening blades of the main module 4 for the final, reliable and timely opening of the blades 12, which ensures increased efficiency and continuous movement tapes 11.

To increase the efficiency of the floating power plant, gear wheels of a smaller diameter 10 and a larger diameter 14 are used, which make it possible to achieve simultaneous full use of the force of the water flow on all the open numerical blades of a curvilinear shape 12, which set the inclined belts 11 in continuous motion, as well as the use of a large the lever of the second kind (turn) in the large-diameter gear wheel 14, the use of a flywheel on the outer circle of the large-diameter gear wheel, the use of an additional electric motor on the outer circle of the large-diameter gear wheel, the use of baffle 21 to redirect the flow through module 4 to the open blades of the curved shape 12, as well as the use of a shaped arrow-shaped wing to create stagnant water under the wing 20 and timely bring the blades of the curvilinear shape 12 to the open position.

The force of the water flow, fully acting on the numerical open blades 12, consists of the force of an additional similar module 25 with the help of a perforated tape 23 and an additional similar module 29 with the help of a perforated tape 27.

The power Po of the main module on the axis of the electric generator can be calculated according to the following formula:

Eo-КИх М x КИ, where: Ки - the force of the current acting on one blade M - the number of blades under the simultaneous action of the current КИ - the amplification factor due to the lever of the second kind in a paired gear wheel of large diameter.

Similarly, the strength of additional similar modules E25 and 29 is calculated.

The additional power of the electric motor is calculated according to the formula: Eds-Ed x KI, where Edi is the passport power of the electric motor. The resulting force Er-BoiE25-4E29-Edso. The resulting force determines the power of the used electric generator 15, which is connected with the help of a multiplier 16 to the axis of the vertically coupled large-diameter gear wheel 14 of the main module 4.

An additional electric motor 22 is installed to create additional mechanical force to maintain a stable rotation frequency and increase the efficiency of the large-diameter paired gear wheel 14. It is connected to it electromechanically in automatic mode along the outer circle of the wheel to ensure, due to the lever of the second kind, rotation stabilization during forced changes in the river flow and changes of electric power per electric generator, which is confirmed by the given formula for calculating Er.

Between the main module 4 and additional modules 25 and 29, turbines 30 and 32 are installed, on the shaft of which there are fans 31 and 33, the revolutions of which increase the speed of the continuous free flow of water, which increases the speed of movement of the perforated belts, and thereby increases the revolutions of the electric generator, which is useful also for serial modules 34 and 35.

The main module contains a vertical support 5, in the upper part of which a horizontal axis 6 is installed, which rotates around it, on which are located the electric generator 7, the blades of the wind drive 8. Due to the converting mechanism with the steering wheel 9, the optimal location of the wind drive is achieved depending on the direction of the wind. Electricity from generator 7 is intended for users.

The obtained cheap electricity allows you to preserve for future generations the sources of energy (oil, gas, coal) lying in the bowels of the earth.

Claims (8)

USEFUL MODEL FORMULA 1. A hydro-wind power station containing a platform stabilized by a steering wheel (2), (3), on which a vertical support is installed, in the upper part of which a horizontal support is installed, which rotates around it, on which the blades of the wind drive (8) are located, which is controlled by a steering wheel (9), which is distinguished by the fact that in order to increase efficiency, efficiency, reliability and simplify the design, an electric generator (7) is installed on the axis of the wind drive, and the main module (4) and additional similar modules (25), (29) are installed on the platform and turbofans Zo (30), (32). 2. Hydro-wind power plant according to claim 1, which differs in that, to increase efficiency and reliability, the main module contains blades of a curvilinear shape (12), hinged, which move the belt (11) from the flow of water, creating a mechanical force on the vertical a paired gear wheel of a larger diameter (14), being assembled on it with the power of a lever of the second kind (turn) for driving with the help of a multiplier of the rotor of the electric generator (15). C. The hydro-wind power plant according to claim 1 and claim 2, which differs in that, to increase efficiency, reliability and efficiency, the main module contains blades of a curved shape (12), on the edge of which a roller (13) is installed, a fixed pressure arc (18) and running-in pressure roller (17), which are used to assemble the blades (12). 4. The hydro-wind power plant according to claim 1 and claim 2, which is distinguished by the fact that in order to increase the efficiency, reliability, efficiency and timely deployment of the blades (12), a fixed repulsive inclined arc of a curved shape (19) and an arrow-shaped curved wing (20) and a deflector are installed (21). 5. Hydro-wind power plant according to claim 1 and claim 2, which is distinguished by the fact that in order to maintain a stable rotation frequency, increase efficiency, reliability, efficiency and ensure the possibility of installing an electric generator of increased power, the gear wheel (14) is electromechanically connected to the electric motor in automatic mode (22) due to additional force. 6. Hydro-wind power plant according to claim 1 and claim 2, which differs in that similar additional modules (25) and (29) are installed on the platform to maintain a stable rotation frequency, increase efficiency, reliability, efficiency and ensure the possibility of installing an electric generator of increased power on the platform, creating additional force, connected to the generator (15) of the main module by tapes (23) and (27). 7. Hydro-wind power plant according to claim 1, which is distinguished by the fact that in order to increase the efficiency and reliability of the efficiency by increasing the speed of the water flow, the installed turbines (30) and (32) drive the fans (31) and (33) into rotation. 8. Hydro-wind power station according to claim 1, which is distinguished by the fact that in order to supply the necessary electricity to the user and to the state network, it is possible to sequentially install the required number of hydro-wind power stations. E: pe Si; z s j there are snakes o ze ke m nn z ANA p a o p o o w z s xx xx Tim y a r | r : y y x EE Uh sht SHK 4 : nn i age TE, KE. Ky tya ryh OO), : g yak ke N y moe vy sa yn shk MH ia i ml, nin v NN NE OO y na SOVu mn hu - KOMY. ee SHY ne KA tri 017 na Z NA ne SHE Y in p u fr zhi? dos :: oh peri! my ZM zhi on -Kya g : NI zh SHE : pi Gi Y dn N MYH. de , shi shin e shik zhi shi shi Mt, : her and we: UCHNYA tA i ny Z ro pu, o: roty gen I N I SYN pn na y Bon V i ky N N she tia y NN i. H 1 ! hooray! nin nn ne she ni you; o ne nin nn nn a z o p p p s p o i Eh, and i | i son r Tsiv i shin pi na p p i i ZA r Zh pany kshshnny shi she shi . ny nn p ne M p p po p nu rn - shk i ! shi: ne ki tu pa NI ni yami 1 ro N x M N: . yannia What are we about NN NN NN OH NN i CHK NN what hai no YES r Sha; o o i IN I NA A NN o PN ram AK NN YAOLO deya : THIS and sword I : | te kt N Y Y rosiy ch u i y t tu ag geu BO tires pn shi u tires sashe shen rovom she ch a M CHI CHAN Z ZH nn YO : Uh pasa rovy a Z tn nn nyni ri r N Ne mo Z usha Sudi NV isyati - Natynut N NO. ; N and Y? KI, 7 N! h kt hi still ; вх with nothing for: I Ж! Zyado MKKu MLYUM. BUT. "and the ball and them