WO2018056930A2 - Energy generator which generates electrical energy from mechanical energy - Google Patents

Abstract

. It is energy generator(300) where mechanical energy is used by buoyancy force of liquids and transformed into electrical energy and its property is to include main liquid tank (100), multiple inner tanks(101) which were structured inside main liquid tank (101), floats (102) which are moved in opposite with ground in Z1 direction within inner tanks (101), float contact wings (1032) which are contacted by floats (102) which are driven by forced movement in z1 direction of floats (102) and belt generating movements (1031), drive group (1033) having movement generation hub (1033) which takes movement from mentioned belt (1031) generating movement, and energy generation center (1034) and hub gearbox transferring movement to alternator, float transfer tank ( 200) delivery of floats which arrive to main shaft (1035) reducer or belt pulley mechanism and movement ending period (104) and has completed movement into inner tanks (101) again and where floats (102) are delivered in Z2 direction by gravity, upper cover (207) with air proof and horizontal movement and lower cover (206) with air proof and horizontal movement property and float passing cover (203) having air proof property which are structured for storage and release of floats (102) and preferably servo motor which provides movement of other parts accordingly with claim and which is controlled by control panel. Also float transfer ramp (215), float direction feeder (202) which are used for facilitating delivery of floats (102) into float transfer tank (200) and float transfer robot lever having function of float direction lever (202) has been installed.

Description

DESCRIPTION

ENERGY GENERATOR WHICH GENERATES ELECTRICAL ENERGY FROM MECHANICAL ENERGY Technical Field

Invention is related to a liquid which is stored inside a tank and buoyant force of liquid and electricity generation process where mechanical energy is generated from movements as result of buoyant force several float which are placed inside tank

State of the Art

Recently there are processes where electricity is generated by steam, wind, sea, magnetic forces, and buoyant force of liquids. There are several patents related to these generators. Some applications were observed in patent research regarding with former technique.

Application numbered TR2014/06555 is related to tribune system including blades which generates electricity by rotating tribunes with blades by means of air bubbles in liquid environment.

Expression was included in summary page of patent application numbered TR2014/02497 that " This invention is related to a system which generates electricity by utilizing buoyant force of liquids to meet electrical need in locations such as industrial organization, residences etc and its property is that it consists of liquid tank in which liquids having varying density is stored, lower table which placed over base of tank including liquid, two profiles which are vertically fixed over lower table, low cylinder and upper cylinder which were installed between these profiles, band which will is moving by rotating over cylinders, several bubbles which are associated over band, pipe with roller bearing which is associated with lower cylinder which provides inflating pipes by sending air, air line which transmits air after being integrated with pipe with roller bearing, compressor which generates air to delivered to line, gearbox which is actuated by upper cylinder and alternator which is associated to gearbox by transmission shaft.

Again Turkey Patent Application with 2008/06555 application number was observed as result of researches made in literature regarding with subject. Expression was included in abstract page of this patent application that " This invention is related to a force machine generating power and operation method for machine. With furthermore properties, is related to operation force machine and operation method which can operate system without requiring external power after first movement and obtaining power for continuance of movement and generating power having efficiency more than one". Also PC patent application numbered WO2005059359 Al was observed as result of researches made in literature regarding with subject. One elevator and electricity generation device were mentioned in this patent application.

Objective of Invention

Objective of invention is to generate electrical energy by using buoyant for of liquids.

One objective of invention is to generate electricity from mechanical energy for tools such as bubble, air cushion which are called as float where buoyant force of liquid is applied.

One objective of invention is to eliminate damage, pollution and disorder which are caused from fossil fuel and nuclear energy types against nature, ecology and environment. One objective of objective is to generate energy in autonom structure and to prevent consuming material and labor which used for energy transfer and distribution. Another objective of inventive is to eliminate central structure of energy generation

One objective of inventive is to present an energy generator which has simple structure but high functionality, applicability and efficiency.

Other objective of invention is to use buoyant force correctly, to control system systematically and obtain high energy. Thereby, to reduce energy costs and minimal level is used in industry. Other important objective of invention is to make high contribution to economy of county, to obtain high advantages in industry and thereby reducing energy costs and production costs at minimum level.

Other objective of invention is to apply this system regardless with dimension and to eliminate materials (fossil fuels) which are used for meeting energy requirement.

Figures which may assist understanding of invention Figure- 1 ; two dimensional schematic view of energy generator which is subject matter of invention

Figure -2; Close up individual representative perspective appearance of drive group

Figure-3; View of central gear that is adapted to rotational movement obtained from drive group. Figure-4; View of multiple gearboxes which are adapted alternatively for rotational movement obtained from drive group.

Figure 5; Schematic view of back rotation tank of float

Figure -6; Two dimensional representative schematic view of drive mechanism. Figure-7; General representative cross section perspective view of energy generator which is subject matter of invention.

Figure -8; Top view of form between ground and top level of passing of tanks for float which move around themselves in circular form. Explanation for part references

100- Main liquid tank

101- Inner tanks

102- Float (Bubble, saccules which have protrusions having dimensions equal to upper and lower sections which are filled by air gas, air or chemicals which will affect buoyant force of liquids)

103- Drive group

1031- Belt generating movement

1032- Float contact blades

1033- Center generating movement

1034- Power generation center

1035- Main Shaft

1036- Bedding components (Bedding elements with several dimension and sizes which were designed accordingly with objective and function)

104- Ending area of movement

200- Float transfer tank

201- Float direction opening

202- Float direction feeder

203- Float passing gap cover which has air proof property (preferably spring actuated)

204- Slot mechanism 205- Float passing gap

206- Spring actuated lower cover with air proof property

207- Upper cover with horizontal movement with air proof property

208- Float transmission slope

210- Float drive mechanism

21 l(A)-Float drive lever

211(B)- Float passing gap cover drive lever (preferably solid lever)

212- Hinge points

213- Controllable movable thrust component

214- Drive gearbox

215- Float transmission ramp

216- Exterior ring

217- Guardrail

300- Power generator

Z- Base

Zl- Direction vertical with base, opposite with gravity

Z2- direction of gravity which is vertical with ground

S- Liquid level

X- Rotational axis for belt

A- Interior area

B- Exterior area

Detailed Explanation of Invention Power generator (300) which is subject matter of invention includes following parts in preferred application except ones which are present in reference list;

- Linear slot mechanism for float passing gap covers which has air proof property,

- Lower cover linear slot mechanism which has horizontal movement and air proof property,

- Upper covers linear slot mechanism with horizontal movement which has air proof property, - at least (1) control panel ,

- manual On/OFF model,

- alternator (dynamo),

- battery

- direct current and alternative current adapters,

- float transfer robot lever,

- brake mechanism,

- servo motor, (preferably)

- float holding wings,

- movable and belted pulleys,

- hub gearbox ,

- balance reels ,

- toothed rack gearbox,

- o ring and gasket,

- cover pusher claws ,

- Cover arms with interior spring,

- Pneumatic system,

- Bedding gap for bedding components,

- Movement transmission shaft,

- movement transmission gearbox (preferably helical gear),

-gear box,

- belt pulley mechanism,

- float transmission boxes,

- float release claws

- float drive spacing,

- float transmission gap,

- float contact wings support apparatus,

- Part connection apparatus.

In figure 1, power generator (300) where mechanical energy is obtained by using mechanical force which is obtained by buoyancy force of water is used and where this mechanical energy is transformed into electrical energy was illustrated with generally schematic manner. Mentioned power generator (300) includes main liquid tank (100) which is filled with liquid, multiple inner tanks (100) which are structured into main liquid tank (101). Float direction feeder (202) which directs floats (102) towards float transfer tank (200) and float direction opening (102) which directs mentioned floats (102) towards float tank (200) were illustrated. Also bedding element (1036) which is preferably roller bearing and positioned over ground (Z) having several dimension, size and properties was shown. Also exterior ring (216) was mentioned in figure. Bedding element (1036) was positioned vertically over Zl axis and main shaft (1035) which can rotate around itself was bedded. Also float contact wings(1032), was positioned with technique and with technical features such that it will maintain each float (102) where buoyancy force is plied over float contact wings (1032) within inner tanks (101) will go out as aligned with float transmission ramp (215) for ending area of movement (104) as two rows from main liquid tank (100) and also it will implement delivery of each float(102) which are present in float transfer box which is positioned at float transfer tank (200) from float passing gap (205) towards liquid tank (100) and inner tanks (100) with synchronized and coordinated manner.

Multiple contact wings (1032) which transmits drive and contact movement which were taken from floats (102) which were preferably created over belt (1031) or chain generating movement to belt (1031) generating movement and movement generation hub (1033) transmits movement which it has taken from belt (1031) generating movement to preferably transmission shaft and movement transmission gearbox were illustrated in figure -2

Movement generation hub(1033) which are present over upper section of inner tanks, helical preferably helical gears, hub gear main shaft (1035) or power generation centers (1034) which transmits rotational movement in movement generation hub(1033) or drive group (lOl)preferably to gearbox by alternative tools were illustrated in figure- 3 and figure-4

Float transfer tank (200) which was shown in figure -5 was designed for storing floats (102) which go out from liquid tank (100) accordingly with objective and designed for transferring mentioned floats (102) to main transfer again by consuming force which is less than total unit value of energy they have released and preferably they are adapted to main liquid tank (100) by connection apparatus. It has float passing gap (205) which is formed for transferring floats (102) and float passing gap cover(203) having air proof feature which opens and closes mentioned float passing (205) with periodic time interval and it has upper cover (207) having air proof property and horizontal movement, which is formed in upper area. Float transfer tank (200), has two float transfer boxes having equivalent dimensions and function which are preferably adjacent to each other for performing storage and transfer operations of floats (102). Mentioned float has liquid discharge pump with float and hose which is controlled by control panel for discharging excess liquid into main liquid tank for keeping liquid level in float transfer tank (200) to keep at initial levels. In addition to this float discharge claws which were designed as four(4) which are present preferably in each float transfer box which are placed at lower section of mentioned float transfer boxes, and float drive lever (211)- A which exerts drive to mentioned floats (102) which were released by float drive mechanisms (210) and float transfer slope and gloat drive interval having depth and with which are equal to sizes of float (102) dimensions were formed Also it includes float transferring ga which is formed between lower section of lower cover (206) having air proof property and horizontal movement property and upper section (aligned with liquid level) of float passing gap (205) was formed for keeping liquid level in float transfer tank (205) under control.

Schematic two dimensional view of float drive mechanism (210) which is positioned at lower section of lower cover (206) having air proof property and preferably horizontal movement which is controlled by control panel were illustrated in figure -6. Mentioned float drive mechanism (210) includes float drive lever (21 1)-A which is preferably actuated by servo motors transfers to main liquid tank (100) and inner tanks (101) after passing through float passing gap (205) by applying drive over floats (102) and float drive mechanism (210) which exerts movement over float passing cover (203) Mentioned drive mechanism (210) includes float passing gap cover drive lever (211-B) which can make angular movement by hinge points (212), and drive gear box (214) which can generate angular and linear movements for this float drive letter (21 1-B) by rotational movement. On the other hand it has movable thrust element (213) which can be controlled by belt and pulley where one end is connected to drive gear box (214) or preferably connected to servo motor.

Representative cross section perspective view for energy generator (300) which is subject matter of invention is shown in figure -7. Float transfer ramp (215) which is formed for facilitating transfer of floats (203) to float transfer tank (200) was formed in figure. Because guardrail (217) was formed at upper edges of float, transfer tank (200). Guardrail (217) prevents floats (102) which go out from main liquid tank (101) to fall during discharging into float transfer tank (200). Areas where lower cover (206) with airproof and horizontal movement property and upper cover (207) with airproof and horizontal movement property are positioned were clearly illustrated.

Figure- 8, top view of inner tanks (101) which are adapted to main shaft (1035) and which rotates around itself together with main shaft (1035) in circular form, form between upper level of float passing gap (205) and ground were illustrated. Exterior surfaces of inner tank (101) rings were removed for providing floats (102) to pass from float transfer tank (200) to main liquid tank (100) and inner tanks (101). Form of tanks (101) in mentioned area were formed as half crescent or shape smaller than crescent Operation of power generator (300) is as following;

Main liquid tank (100) is a tank which is filled with liquid. Four inner tanks (101) were preferably positioned inside this main liquid tank (100). These inner tanks (101) were adapted to main shaft (1035) by power generation center (1034) and hub gearbox. However it is possible to have these inner tanks (101) with different quantities. Ana mil (1035), Main shaft(1035), inner tanks (101) and several floats (102) which are present in inner tank (101), were placed in vertical position against ground (Z). These floats are bubbles or saccules which are filled with chemicals of gases which are made of materials with lighter specific weight for increasing buoyancy force. Floats (102) which are present inside inner tank (101), moves upwards and downwards at zl axis continuously accordingly with buoyancy force. Desired energy is obtained by up and down movement of floats (102). Floats (102) are positioned between float contact wings (1032). Float contact wings (1032) rotates belt (1031) over x axis by generating movement by vertical movement which was obtained from floats (102). Rotation occurs at movement generation hub (1033) together with this rotational movement and movement is obtained in power generation center (1034) simultaneously. Rotational movement which is generated in movement generation hub (1033) is preferably transferred to hub gear box by movement transfer shaft and gearbox which preferably adapted to movement generation hub (1033). Mentioned mechanism is referred as power generation center (1034). Some parts of mentioned alternative applications were illustrated in Figure-3 and Figure-4. Reproducing these alternatives and obtaining different alternatives are possible. Movement which is transferred to hub gearbox is adapted main shaft (1035) which is adapted to hub gearbox. Electrical energy is generated by transferring movement which is transferred to main shaft (1035) to alternator (dynamo) by gearbox, reducer and belt and pulley mechanism. Meanwhile, while belt (1031) which generates movement which is positioned in drive group (103), is located inside inner tank (101) in area it is out of inner tank (101) in region B. Because float contact wings (1032) which were relieved from forced drive of floats and belts (1031) generating movement passes through area B and enters into region a which is positioned inside inner tank (101 and actuated by buoyancy force of floats (102). Energy generation center (1034) actively enters into cycle together with this transportation and cycle.

Energy generator (300) also includes float transfer tank (200). Float transfer tank (200) is the area which is aligned with movement end area (104) and float transfer ramp (215) where floats which go out from inner tank (101) is transferred. Mentioned floats are transferred towards inside float transfer box of which upper part is open and lower section is closed by lower cover(2016) which has air proof and horizontal movement property for float transfer tank (200) by means for float transfer robot arm which is alternative application of mentioned float direction feeder (200) or by float direction feeder (202). Meanwhile upper cover which has airproof property and horizontal movement passes through lower section of filled float box of which upper part is closed and lower part is opened and float transfer slope (208) for each float(102) which are discharged by float transfer claws and maintains to keep float in drive interval in stabile status. Mentioned floats (102) are submerged into liquid which is filled up to upper level of float passing gap(205) by means of drive lever (21 1)- A which is adapted to servo motor directly of by drive gearbox (214), and than transferred into main liquid tank (100) and inner tanks (101) by means of movable thrust mechanism (213) or slot mechanism. Float direction feeders (202) is operated with mentioned cover mechanism with horizontal movement simultaneously and with coordinated manner. When mentioned all floats (102) which are present in float transfer box are transferred in main liquid tank (100) and inner tanks and discharge then float transfer boxes which were empty at the beginning are filled completely with floats. (102)Mean while float passing gap cover (203) which has air proof and property which is actuated by servomotor which is controlled by control panel closes float passing gap (205). Lower cover (206) with airproof and horizontal movement property and upper cover (207) with air proof and horizontal movement property change their location by moving oppositely immediately after closing mentioned float passing gap (205). Float passing gap cover (203) is opened again by mentioned mechanism which is controlled by control panel. Thereby initial values of liquid level in main tank (100) and float transfer tank (200) are preserved. Floats (102) which are transferred from main liquid tank (100) to float transportation tank (200) are directed from float transfer tank (200) to main liquid tank (100) and inner tank (101) and energy is continued to be generated by same repeated cycle.

Claims

1- This is energy generator (300) where mechanical energy is obtained by using

buoyancy force of liquids and where this mechanical energy is transformed into electrical energy and its property is to include ; main liquid tank which is filled by liquid (100),

-several inner tanks (101) which were structured in mentioned main liquid tank(100),

-floats (102) which are moved with opposite direction against gravity by

means of buoyancy force in mentioned inner tanks (101), (bubbles, saccule having protrusions preferably with dimensions which are equal to upper and lower section which are filled by air, gas or chemicals which will effect buoyancy force of liquids..), Energy generator (300) where mechanical energy is obtained by using buoyancy force of liquids and where this mechanical energy is transformed into electrical energy (300),

-Drive group (103) having movement generation hub (1033) where

mechanical energy is generating after obtaining movement from belt (1031) which generates mentioned movement. ,

-Energy generation center (1034) which transfers movement at mentioned

production hub (1033) to inner tanks (101) and to main shaft by hub gear box and main shaft( 1035) by means of bedding element (1036) movement transmission gearbox and movement transmission shaft which are bedded by bedding elements (1036) and connection apparatus. ,

-Preferably gearbox, reducer or belt and pulley mechanism which are adapted to main shaft (1035) which transfers movement in power generation center (1034) to alternator (dynamo) shaft. -bedding elements (1036) which are positioned over mentioned parts for

making desired movement for main shaft (1035), movement transmission shaft and gearbox and relevant miscellaneous parts,

-Alternator (dynamo) which provides electrical energy by transferring

movement in mentioned main shaft (1035) by preferably gearbox to shaft of alternator (dynamo),

-float transfer tank (200) which provides floats (102) which are aligned

with movement end period (104) and float transfer ramp(215) that has completed their movement to be delivered to inner tanks (101) again and where floats (102) are delivered at z2 direction by gravity,

-two (2) pieces of float transfer ramps (208) which width and gap

dimension which is equivalent with dimensions of floats (102) that are positioned such that they will be located inside transfer tank (200) in reciprocal for maintaining transferring floats (102) which are released by mentioned float release claws into float drive gap.,

-float drive interval having dimensions which is equivalent with size of

width and depth of float (102) which is positioned as gap between end points of mentioned float transfer slopes (208) for maintaining to apply drive by float drive lever (211)-A and for keeping mentioned floats over liquid level (S) inside float transfer liquid tank (200),

-slot mechanism (204) which is alternatively positioned inside float

transfer tank (200) and controlled by control panel for maintaining transfer of floats where drive was applied by float drive lever (211)-A in mentioned float transfer gap into main liquid tank (100).,

-Float holding wings with belt and pulley which can move at only Z2

direction which is adapted to both upper sides of mentioned mechanism and parallel with ground (Z) for keeping floats (102) where mentioned drive was applied to keep at slot mechanism, ,

-float release claws which are positioned as four (4) piece under float transfer boxes and controlled by control panel for maintaining release of said floats (102) from full float transfer box of float transfer tank(200) accordingly with objective,

-Liquid discharge pump preferably with floater and hose which transfer

excess water which is accumulated in float transfer tank (200) for keeping liquid level varying in main liquid tank (100) and float transfer tank (200) as result of long term operation of energy generator (300) which can be controlled by mentioned control panel. ,

-Float drive lever (211)-A, which applies drive to mentioned floats (102)

by movable thrust component (213) which can be controlled which are positioned at lower section of lower cover (206) with air proof and horizontal movement property which are preferably actuated by servo motor and controlled by mentioned control panel.

-Float drive lever (211)-B, which applies drive to mentioned float passing gap cover (203) which is positioned at lower section of lower cover (206) with air proof and horizontal movement property which are preferably actuated by servo motor and controlled by mentioned control panel.float drive mechanism (210) which preferably applies movement over float

drive lever (211)-A and preferably to float passing gap cover (203)

2- It is energy generator (300) accordingly with claim 1 and its property is to

include multiple float contact wings (1032) which are positioned over belt generating movement with equal intervals and which transfers contact movement which it gets from floats (102) to belt generating movement. (1032)

3- It is energy generator (300) accordingly with claim 1 and its property is to

include float contact wing support apparatus which are adapted between preferably belt (1031) generating movement and float contact wings (1032) for preserving strength and initial position against force o movement which was obtained by float contact wings (1032) from floats. 4- It is energy generator (300) accordingly with claim 1 and its property is to include float direction feeder which provides direction of mentioned floats (202) to float transfer tank (200) and preferably controlled by control panel.

5

5- It is energy generator (300) accordingly with claim 1 and its property is to include float transfer robot lever which controlled by control panel which has technical properties and function which can perform functions of mentioned float direction feeder (202) alternatively and can be controlled by controlled panel.

10

6- It is energy generator (300) accordingly with claim 1 and its property is to include float passing gap(205) which has float passing gap (205) which provides passing of mentioned fioats(102) from float transfer tank (200) to main liquid tank (100)

15 7- It is energy generator (300) accordingly with claim 1 and its property is to include linear float passing gap cover linear slot mechanism with air proof property and horizontal movement property which is adapted to mentioned cover (203) for maintaining opening and closing of float passing gap cover (203) accordingly with objective.

20

8- It is energy generator (300) accordingly with claim 1 and its property is to include drive gearbox (214) generating angular bad linear movement by rotational movement for mentioned float drive lever (211).

25 9- It is energy generator (300) accordingly with claim 1 and its property is to include movable thrust component (213) of which contact between one end of drive gearbox (214) where other end of drive lever (211) which is contacted with one end of drive gearbox (214) can be controlled.

3010- It is energy generator (300) accordingly with claim 1 and its property is to include upper cover (207) with horizontal movement which is formed at upper area and lower cover (206) with horizontal movement which is positioned at upper and lower sections of float transfer boxes of mentioned float transfer box (200) for implementing liquid level (S) at float transfer tank (200), and float storage and release operations with certain periods and accordingly with objective.

11- It is energy generator (300) accordingly with claim 1 and its property is to include pneumatic system which is designed alternatively implementing mentioned movements accordingly with objective for lower cover with air proof and horizontal movement (206), upper cover with air proof and horizontal movement (207), float passing gap cover (205) and float drive mechanism (210) and slot mechanism( 204).

12- It is energy generator (300) accordingly with claim 1 and its property is to include time relay which is preferably placed inside control panel in for the cases when it is preferred to start and stop mentioned energy generator (300) with desired time intervals.

13- It is energy generator (300) accordingly with claim 1 and its property is to include ON and OFF buttons which are preferably positioned into control panel accordingly with objective for maintaining energy generator (300) to be started and stopped manually.

14- It is energy generator (300) accordingly with claim 1 and its property is to include part connection apparatus with technical properties and measures accordingly with objective for fixing energy generator (300) to be fixed and adaptation accordingly with objective.

15- It is energy generator (300) accordingly with claim 1 and its property is to include cover arms with inner spring which is preferably adapted to linear slot mechanism which is moving inside slot mechanism and adapted to mentioned covers for performing pushing movement of claws which push covers downwards in (z2) direction with desired distances. 16- It is energy generator (300) accordingly with claim 1 and its property is to include direct current ant alternative current adapters which are positioned into battery inlets and outlets for transforming energy which is obtained from alternative to preferred

5 current time.

17- It is energy generator (300) accordingly with claim 1 and its property is to include oring or gaskets which are adapted to channels which were opened in mentioned covers accordingly with objective for maintaining air proof property of upper cover (207) with air proof and horizontal movement and lower cover (206) with air proof

10 and horizontal movement property.

18- It is energy generator (300) accordingly with claim 1 and its property is to include at least one battery which can store electrical energy which was obtained from alternator accordingly with form and property of energy current type when battery usage is preferred.

1519- It is energy generator (300) accordingly with claim 1 and its property is to include movable pulley with belt which are adapted as technical having technical property and feature accordingly with objective into lower sections of mentioned float holding wings for facilitating transfer of mentioned floats (102) from float transfer tank (200) to main liquid tank.

20

20- It is energy generator (300) accordingly with claim 1 and its property is to include balance reels which are positioned into gap between external ring (216) and inner surface of main liquid tank (100) which are fixed tangential circle form at exterior surfaces of upper section of mentioned inner tanks (101).

25

21- It is energy generator (300) accordingly with claim 1 and its property is to include preferably toothed rack which is adapted to servomotor gear and preferably positioned into centers of upper and lower sections of mentioned covers.

3022- It is energy generator (300) accordingly with claim 1 and its property is to include cover pusher claws which are adapted to cover arms wit interior spring and mentioned covers which push mentioned covers downwards (z2) direction with desired distance for maintaining airproof property while performing horizontal movement with opposite direction of upper cover (207) with air proof and horizontal movement and lower cover (206) with air proof and horizontal movement property

23- It is energy generator (300) accordingly with claim 1 and its property is to include control panel which controls movements of float passing gap cove (203) with air proof property and horizontal movement (203), float direction feeder (202) or transfer robot arm which is designed alternatively for mentioned float direction feeder (202), upper cover (207) with air proof and horizontal movement and lower cover (206) with air proof and horizontal movement property and slot mechanism (207) accordingly with objective.

24- It is energy generator (300) accordingly with claim 1 and its property is to include preferably servo motors which are positioned individually for each mechanism for maintaining desired movement of mechanisms which can be controlled by control panel.

25- It is energy generator (300) accordingly with claim 1 and its property is to include bedding gap for bedding components which are formed between mentioned inner tanks (101) for adapting mentioned bedding components into inner tanks (101) with several connection apparatus accordingly with objective.

26- It is energy generator (300) accordingly with claim 1 and its property is to include movement transfer shaft and movement transfer gearbox which transfer movement in movement generation box (1033) into movement hub gearbox.

27- It is energy generator (300) accordingly with claim 1 and its property is to include hub gearbox which is positioned with proper dimensions accordingly with objective over for transferring movement which is transferred by movement transfer shaft and gearbox to main shaft (1035) 28- It is energy generator (300) accordingly with claim 1 and its property is to include float transfer ramp (215) which is formed for facilitating delivery of floats (102) towards float transfer tank (200).

5

29- It is energy generator (300) accordingly with claim 1 and its property is to include guardrail (217) which is formed at edges of float transfer tank for preventing fall floats (102) which are transferred from liquid tank (100) to float transfer tank.

1030- It is energy generator (300) accordingly with claim 1 and its property is to include exterior circle (216) which is designed accordingly with objective as it will pass tangential from exterior surfaces of inner tanks (101).

31- It is energy generator (300) accordingly with claim 1 and its property is to include 15 alternator (dynamo) support platform which is designed for positioning mentioned alternator over (dynamo) energy generator.

32- It is energy generator (300) accordingly with claim 1 and its property is to include main shaft (1035) which is positioned Zl axis of base of main liquid tank (100) for

20 maintaining inner tanks (101) and floats (102) which are positioned inside inner tank, movement generation center (1034) components, hub gearbox and reducer or belt pulley mechanism to be operated accordingly with objective.

33- It is energy generator (300) accordingly with claim 1 and its property is to include 25 float transfer gap which is formed between lower cover (206) with air proof property and horizontal movement which is aligned with liquid level for controlling rise of liquid level during applying drive over mentioned floats (102) by float drive lever.

34- It is energy generator (300) accordingly with claim 1 and its property is to include 30 float drive lever (211)- A which performs angular and circular movements by mentioned float drive mechanism (211) and drive gearbox (214) and hinge points (212) which can generate angular and linear movements for this float drive lever (211)- A

35- It is energy generator (300) accordingly with claim 1 and its property is to include brake mechanism with preferably brake shoe which can be controlled manually or by control panel, which is adapted to alternator (dynamo) support platform and to main shaft (1035) for stopping energy generator (300) which is in operable status.

36- It is energy generator (300) accordingly with claim 1 and its property is to include float transfer tank liquid which is equivalent and combined with liquid inside main liquid tank which is formed with amount and level accordingly with objective inside float transfer tank for maintaining release from float transfer tank (200) to main liquid tank for keeping liquid inside liquid tank (101) inside main liquid tank (101) during operation of energy generator. (300).