Prevention of the catastrophes
The Unified Theory of Nature has allowed to develop the new expedient of reception of energy. Here we will give one of possible concrete embodyings of the expedient. It is the generator of energy "Ray".
The generator has no analogues, as its technical essence radically differs from known generators. In connection with lack of analogues we will name the generator as «Ray» on its similarity with a lamellar-branchiate sea being. The principle of operation of the generator is grounded on the phenomenon «Heat-mechanical shock in a fluid» (Secrets of water look).
The generator is figured on figs. 1, 2, 3. On fig.1 – three views of the generator as an assembly, on fig. 2 – a construction of the mobile plate, on fig. 3 – electrical connections.
The generator represents the right-angled flowing chamber 1 of flat plates, filled with water. The upper plate 2, a bottom 3 and the lateral, concerning fluxion of water in the chamber, walls 4 are rigid and immobile. To the upper plate 2 from below is cemented the guided along lateral walls of the chamber the bow spring 5, converted by the ends downwards. The forward and the back, adrift of water in the chamber, walls 6 are hermetic concerning lateral walls, are elastic mobile in the lower part and have in the chamber below lugs 7. These walls do not reach level of the bottom of the chamber and form the slot between the bottom of the chamber 3 and the lower edge of the each wall 6.
In the chamber is placed the horizontal mobile plate 8, having back adrift waters in the chamber the side more massive, than the front. Between the mobile plate 8 and the upper immobile plate 2 the cylindrical spring 9, cemented to these plates, is erected.
The mobile plate 8 consists of three stratums. The first lamina 10, which have been from the chamber 1, is executed of the most sustainable against the cavity erosion material. The second (medial) stratum 11 – from the piezoelectric material. The third massive stratum 12 – from the rigid on bending material. The plate is converted by the lamina in the chamber. The plate can move about vertical walls of the chamber hermetically.
From sides of the piezoelectric stratum there are taps for an electric current. The taps connected to the wires 13, going to target hold-downs 14, that are on the upper immobile plate 2 of the generator of energy.
The flat vertical stock 15 is cemented to the mobile plate from above in the middle of it elasticly on bending. The longest side of a cross-section of the stock is guided across of the lateral walls 4 of the chamber 1. The stock transits in vertical guiding 16 in the upper immobile plate 2 freely.
In the stock there is a channel 17, in which wires 13 from a pezo-electric stratum 11 transit to the lamellas 18, strengthened on a lateral surface of a stock 15. The lamellas contact with the current collector brushes 19. The brushes are strengthened on the upper immobile plate 2 and joined by wires 13 with the target hold-downs 14 of the generator of energy.
The core 20 of magnetically soft material is cemented to a stock 15 on its upper end. The core is placed in a winding of the electromagnet 21. The generator 22 of electrical impulses drives by electromagnet current.
In the energy generator it is accepted the squared shape of the chamber 1, since only at such shape it is possible hermetic contact of difficult moving mobile plate 8 with the elastic flat forward and back vertical plates 6 and the rigid side plates 4.
The chamber 1 is the flowing, since the waste water is necessary for exchanging with the new after takeoff of its thermal energy. The chamber is formed of flat plates 4, 6 since at such shape necessary the quality of contact of the mobile plate with the immobile 4, 6 is provided.
The lateral walls 4 of the chamber 1, the upper plate 2 and the bottom 3 are immobile and rigid, since non-observance of these demands will lead the construction to impossibility of its operation or to prompt fracture.
The arc spring 5, converted by the ends downwards, is intended for amortisation of the horizontal mobile plate 8 and giving to the plate of a horizontal standing in the end of its up-stroke. This spring is guided along the lateral walls 4 of chamber 1 since the front and the back of the mobile plate 8 fluctuates in this plane at its motion upwards and downwards.
The forward and back walls 6 of the chamber 1 are hermetic concerning the lateral walls 4 for exclusion of alien fluxions of water of the chamber and in the chamber. They are elasticly mobile in the lower part for constant hermetic the quality of contact with the horizontal mobile plate 8.
The lugs 7, settled on the lower end of the vertical elasticly mobile plates 6, are necessary as the terminators – the emphasis for bringing of the mobile plate 8 in an inconvertible horizontal initial point in the end of its downward motion. The forward and the back walls 6 do not reach of the floor 3 of the chamber 1 for formation of an inlet of water in the chamber and an exit of water from the chamber.
In the chamber 1 the horizontal mobile plate 8 is placed. Water is sucked in and pushed out the chamber at a motion of this plate upwards and downwards. Besides, the plate transmits to water the rarefaction, originating at acceleration of the motion of the plate 8 upwards, and perceives the mechanical shock from the chamber 1 also.
The cylindrical spring 9 for the motion of the mobile plate 8 in a downward direction is erected between the horizontal mobile plate 8 and the upper immobile plate 2. The spring 9 is cemented to the specified plates for more exact retrace of the mobile plate 8 in the initial point and exclusions of gaps and shocks of the mobile plate about terminators 7 in the course of a slackening of the spring at the long-term maintenance of the generator.
Back part of the mobile horizontal plate 8 is more massive for maintenance of retardation of a motion of this part of the plate at its motion upwards and downwards. By that the water sucking in the chamber 1 through the forward slot under the forvard elasticly mobile plate 6 and pushing out of water behind the chamber 1 is provided.
The first stratum 10 of the mobile plates 8 is done thin for maintenance of the fullest pass of pressure from the mechanical shock in water to the piezoelectric second stratum 11. This stratum 10 is made of the material, inconvertible against the cavity erosion for protection of the piezoelectric stratum against the cavity fracture.
The second stratum 11 is intended for development of electrical energy at the mechanical shock from the chamber 1 through the protective first stratum 10. The third stratum 12 is made massive. Because of its inertia this provides the peak transmission of energy of the shock on the piezoelectric stratum 11. This stratum 12 is made by rigid on an bend for exclusion of an expense of an impact energy on a flexing of the mobile plate 8 and the quality of contact with chamber walls.
The mobile plate 8 moves about vertical walls 4, 6 hermeticly for exclusion of alien fluxions of water of the chamber 1 and in the chamber. From the piezoelectric stratum 11 of the mobile plates 8 are made wires 13 for an electric current, produced in the piezoelectric stratum 11. Target hold-downs 14 serve for connection to them of energy users.
The stock 15, cemented to the mobile plate 8, serves for transmission of a mechanical motion from the electromagnet 21 to the plate 8. The stock 15 is strengthened in the middle of the mobile plate 8 for maintenance most water heavy traffic on filling and dumping of chamber 1 and the technological convenience of manufacturing of this knot. The stock 15 is cemented to the mobile plate 8 elastically for bringing of the mobile plate in a horizontal standing after its diversion from horizon during its motion upwards and downwards and, according, to an elastic deformation of a junction of the stock 15 with the plate 8.
The stock 15 is flat with orientation of its flat side across lateral walls 4 of the chamber 1 for maintenance of the most effective and reliable operation on the periodic strain of the elastic linking in the place of fastening of the stock 15 to the plate 8. The stock 15 transits in the vertical guiding 16 for maintenance of a vertical motion of the mobile plate 8, to which the stock 15 is cemented.
In the stock 15 the channel 17 is made for wires 13 from the piezoelectric stratum 11 for exclusion of strain of wires in an generator operating time. On a lateral surface of the stock 15 the lamellas 18 are settled for a deduction of wires 13 from within the stock 15 outside. The lamellas contact to the brushes 19 for removal an electric current from the mobile lamellas, strengthened on the mobile stock.
The core 20 is cemented to the stock 15. The core placed in a winding of the electromagnet 21 for maintenance of a motion of the plate 8 (to which the stock 15 is cemented) according to voltage changes in a winding of the electromagnet 21. The core 20 is executed of magnetically soft material for exclusion of a residual magnetisation of the core and, accordingly, of error exclusion in the core traffic control.
The electromagnet 21 is connected to the generator 22 of electrical impulses which provides the demanded shape of the impulses and, accordingly, the demanded law of a motion of the stock 15 in a time.
Activity of the generator of energy. The core 20 is retracted in the electromagnet winding at receipt of an electrical impulse from the impulse generator 22 in the winding of the electromagnet 21. The stock 15, cemented to the core 20, starts to move in the guiding 16 upwards. It leads to that the mobile plate 8 starts moving from the lower initial point, keeping away from the bottom of 3 of chamber 1 and coming nearer to the upper immobile plate 2. By that the plate 8 slides about the lateral 4 and forward and back walls 6 of chamber 1, and the forward part of the plate 8 at the expense of its smaller mass leads the back. That leads to the inhausting of water in the chamber 1 (1st step).
In the end of the motion of the plate 8 upwards it at the expense of elasticity of the linking with the stock 15 and of contact with the bow spring 5 accepts a horizontal standing. The subsequent sharp magnification of amplitude of the electrical impulse, which has arrived on a winding of the electromagnet 21, leads to that the plate 8 is aimed to increase velocity of a motion. It calls bubble cavitation of water in the chamber 1 (2nd step).
The subsequent deceleration of the motion of the plate 8 and its stop ( in connection with disappearance of an electrical impulse) lead to a collapse of bubbles and origination of the mechanical shock (3rd step) on the thin stratum 10. This shock is transmitted to the piezoelectric stratum 11, which contacts to a stratum 10. Stratum 11 is squeezed at the expense of counteraction to this shock of the massive stratum 12 of the mobile plates 8. Transient squeezing of the piezoelectric stratum calls generation of an electrical voltage in the piezoelectric stratum 11 of the mobile plates 8. It leads to origination of an electric current from a stratum 11 through wires 13 (transiting in the channel 17 of stock 15), lamellas 18 and brushes 19 to a user, connected to the target hold-downs 14 of the energy generator.
Further the plate 8 by the activity of the cylindrical spring 9 begins the downward motion. Its forward part leads the back again – there is a pushing out of water from the chamber 1 (4th step). The plate 8 reaches the terminators 7 on the forward and the back walls 6 of the chamber 1 and comes to an initial inferior standing. Then the cycle is iterated.
Thus, the developed Unified Theory of Nature, using its universality, shows the most direct practical exits in the solution of the major problems of mankind: reception of the low-cost energy, driving agency on a climate of Earth, including global warming, and many other things.