The device for generating signal electric power based on the use of wind power

 

(57) Abstract:

The invention relates to wind energy, namely, devices for signal generation of electrical power using wind power. The technical result consists in increasing the efficiency of the process of signal generation of electrical power by changing the perceived wind energy, is due to the fact that the device comprises a stationary support rack, a rotary shaft mounted to rotate in the stationary support rack, enclosure propeller mounted to rotate on the upper end of the rotary shaft, the axis of the propeller, mounted horizontally for rotation in the housing of the propeller blade propeller mounted for rotation in forward and reverse direction on the axis of the propeller, the site of the propeller, including the unit propeller having resilient locking means, such the node propeller supported in a perpendicular position when the magnitude of the wind speed is below a predefined level, and flips back to the predefined angle when the magnitude of the wind speed is greater than the predefined urei propeller for generating signal electric power. 8 C. p. F.-ly, 11 ill.

The present invention relates to a device for generating signal electric power based on the use of wind power and, in particular, with improved device for generating signal electric power based on the use of wind power, which allows you to generate signal electric power based on the use of wind power in the conditions of the land or sea.

Description of the prior art

Recently, issues related to energy, are in the spotlight of the international community. Among these problems is the problem of pollution of the atmospheric environment, and also the problem associated with increasing the deficit of minerals used in the field of energy.

Therefore, to overcome the above problems is an urgent need for alternative energy sources. And needless to say that such alternative energy sources must be created to resolve the above mentioned problems.

How hydroelectric energy has long been used as a very important method for generating signal electrci, resulting in reduced land area, and it is the destruction of natural biological systems.

In addition, as a method of obtaining energy, an alternative to the method of obtaining energy through the use of mineral resources, industry, developed a method of obtaining atomic energy. However, nuclear energy generates a number of problems, for example, related to disposal of radioactive waste receiving, storage and use of radioactive materials and so on, which today are the problems of the entire international community. In addition, in some countries it is very difficult to prepare the area in which could be the treatment of radioactive waste and materials, which is primarily due to the instability of the existing methods of their processing.

To overcome the above problems has been proposed a method of using solar energy, which, as we know, does not pollute the environment and is also an alternative form of energy, and this method recently held a detailed study. However, this method also has some problems associated; thus, Solna used basically, on space stations or satellites. In terms of atmosphere, however, due to the change of volume of the recorded solar energy that can be associated with changing weather conditions, the use of solar energy finds only a narrow application, in particular in heating systems of houses.

In addition to this, we developed a method of obtaining energy, involving the use of tidal power and rely on the effect of the presence of a difference of mechanical energy at low tide and tidal currents. However, the application of this method in practice is limited to those places where it is possible to provide a specified amount of the difference specified mechanical energy at high tide and low tide currents.

Recently, we developed a device for generating signal electric power based on the use of force of the sea waves and the method comprising the use of this device, which was based on the use of the mechanical energy of the waves. In such way, we should mention the patent of the Republic of Korea N 35913 (see also U.S. patent N 5066867, which is Pro goals for improving technical solutions previously proposed in the patent of the Republic of Korea N 35913.

The above-mentioned device for generating signal electric power based on the use of force of the waves provides the conversion of the energy accumulated in the vertical movement, up and down, buoys, in accordance with the passing waves, the rotary force so that it formed as a result of converting the rotary force could be used to control the signal generator of electrical power.

In terms of use of the device for generating signal electric power on the basis of energy from sea waves, it is possible to generate signal electric power to the required level, because the sea is always present wave height of not less than 1 meter. In addition, such a machine is placed directly into the sea, which, as is well known, occupies 78% of the globe, therefore there are practically no restrictions on the space for placement of the device for generating signal electric power on the basis of energy from sea waves. Such a device for generating electric signal is noteworthy, because the known device for generating signal electric power on the basis of energy from sea waves created by the authors of the present invention may be installed in the sea, there are no restrictions on the installation of the same device and inland waters, in terms of placing such power plants in the pond is not any reduce usable area on land.

To successfully overcome the above mentioned problems is proposed below the power generator (power plant) based on the use of wind power. It should be noted, however, that power plant that uses wind power, implies the presence of strong wind. This results in the problem of perceptual necessary wind energy throughout the time.

In a known power generator based on the use of wind power, in particular, provides for the use of multiple installed at a certain angle of the propellers of a given shape, which allows to effectively absorb the energy of the wind. In such conditions it is impossible to ensure the desired effect genera the wind speed is less than 20 meters per second. On the other hand, if the wind is too large, say, the wind speed exceeds 60 m in the second mentioned propellers can under the action of strong winds just to crumble.

A brief statement of the substance of the invention

Accordingly, the present invention is a device for generating signal electric power based on the use of wind power, which is provided to overcome the aforementioned problems of the known devices that characterize the current level of technology.

Another objective of the present invention is to create a device for generating signal electric power based on the use of wind power, which provides increased efficiency of the process of signal generation of electrical power by changing the perceived wind energy due to a change in orientation of the propellers, the last when exposed to the wind device with a certain energy, exceeding the largest pre-specified level.

Another objective of the present invention is a device for generating signal electric power based on the use of the means by combining this device with a device for generating signal electric power based on the use of force of the waves, previously proposed by the author of the present invention, and the deployment of such a combined device in the conditions of the sea.

To achieve the above objectives a device for generating signal electric power based on the use of wind power, which includes perpendicularly oriented (relative to the earth's surface) stationary support rack, a rotary shaft mounted to rotate in the stationary support rack, enclosure propeller mounted to rotate on the upper end of the rotary shaft, the axis of the propeller, installed horizontal way, with the possibility of rotation in the case of a propeller blade propeller mounted on the axis of the propeller for rotation in forward and reverse direction, the site of the propeller, including the unit propeller having resilient locking means, such that the node of the propeller was fixed in a perpendicular position when the magnitude of the wind speed is less than a predefined level, or were deflected back at a predetermined angle when the magnitude of the wind speed is greater than a predefined level, and the signal generator electric maskoy power.

Additional advantages, objectives and features of the present invention will become more apparent from the report below for detailed descriptions.

A brief description of the accompanying drawings

The present invention will become more apparent from the report below its detailed description and accompanying drawings which are given solely for illustrative purposes that can not limit the scope of the present invention and showing the following:

In Fig. 1-6 are various types, designed to illustrate the device for generating signal electric power based on the use of wind power in accordance with the first variant of realization of the present invention, in which:

In Fig. 1 shows a rear view designed to illustrate the design of the device for generating signal electric power based on the use of wind power;

In Fig. 2 shows the side view of the device shown in Fig. 1;

In Fig. 3 shows a partially enlarged cross-section of the device shown in Fig. 2;

In Fig. 4 shows a side view designed to illustrate the design of the propeller (in profile);

In Fig. 5 shows poperechnom partial enlarged view, designed to illustrate different operating positions of the propeller in accordance with the present invention.

In Fig. 7 and 8 show views designed to illustrate the device for generating signal electric power based on the use of wind power in accordance with a second embodiment implementing the present invention, in which:

In Fig. 7 shows a spatial view designed to illustrate the device for generating signal electric power based on the use of wind power, and

In Fig. 8 shows a front view of the device shown in Fig. 7.

In Fig. 9-11 shows the types designed to illustrate the device for generating signal electric power based on the use of wind power in accordance with a third variant of realization of the present invention, in which:

In Fig. 9 shows a spatial view designed to illustrate the device for generating signal electric power based on the use of wind power;

In Fig. 10 shows a front view of the device shown in Fig. 9; and

In Fig. 11 shows the side view of the device shown in Fig. 10.

Description of the preferred variant is their device for generating signal electric power based on the use of wind power in accordance with the present invention.

In Fig. 1 shows a device for generating signal electric power based on the use of wind power in accordance with the first variant of realization of the present invention for the case when this device is installed in the conditions of the land.

Within the embodiments illustrated in Fig. 1, provides for the use of the established on the earth stationary support stand 100, the rotary shaft 200 is mounted rotatably on the upper part of the stationary support stand 100, the node 300 propeller connected for rotation with the rotary shaft 200 to create rotary efforts through the perception of wind energy, and the signal generator of electric power of 400, also shown in Fig. 3 controlled using the rotary force generated by the node 300 propeller, to generate signal electric power.

Stationary support stand 100 is installed perpendicular (relative to the earth's surface) on the base Assembly 110. It should be noted that stationary support stand 100 can be installed independently in if it can withstand the impact of wind power or other influencing efforts. In the framework on the>The lower parts of the supports 120 fixed to the many subunits of the base 130, is placed around the base Assembly 110 (on the accompanying drawings shows the two subunits of the base, however, in practice there are typically three sub base), and the upper parts of the supports 120 is securely attached to the intermediate structural member stationary support stand 100.

The base Assembly 110 and the subunits of the base 130 is mounted onto the surface of the earth in a conventional manner, and a fixed support leg 100 and the seat 120 is mounted by setting each foot on a concrete block Foundation.

When this anchor plate 101 and 121 secured to the lower parts of the stationary support stand 100 and the supports 120 and anchor bolts (not shown) installed in the base Assembly 110 and the subunits of the base 130, are passed through the holes of the anchor plates 101 and 121 and protruding from them vertically, and then protruding from the anchor plates 101 and 121 parts of anchor bolts install the nuts so that the fixed strut 100 and the support 120 has been securely mounted on the base Assembly 110 and the subunits of the base 130.

It should be noted that the fastening stationary support stand 100 and supports 120 on the base Assembly 110 and is, through any suitable method.

Stationary support stand 100 can be made on the basis of the hollow structural member so that the latter could be built by a cable (not shown) for signal transmission of electrical power generated by the generator 400 of signal electric power to the Central controller (not shown), and the support 120 is made in the form of steel elements of a particular form, for example in the form of I-beams, angle beams, etc.

Stationary support stand 100 is fixed with the help of supports 120 by setting the coupling element 140 design on the intermediate structural member stationary support stand 100 and fixing the upper parts of the supports 120 of the connection protrusion 141 of this connecting element by means of bolts and nuts (not shown). In addition, the connecting element 140 can be mounted on the stationary support rack 100 by installing and fixing screws 143, the latter due to the fact that the connecting element 140 designs are supplied locking element 142 that is inserted in the stationary support stand 100.

It should be noted that the connection used for fixing the stationary support stand 100 and the supports 120, is not limited to hipopotam, allows you to secure the stationary support rack 100 and the seat 120.

Stationary support stand 100 may be manufactured as a single component structure. In a more preferred embodiment, the stationary support stand 100 is divided into many elements 101 of the structure as shown in Fig. 1 and 3, while the number of elements corresponds to the height of the rack, and the connection of these elements 101 design between them is carried out in accordance with the preferred implementation option by means of bolts 102 and nuts 103.

As shown in Fig. 3, the upper and lower ends of the rotary shaft 200 is fixed rotatably with bearings 210 and 220, respectively, are installed in a stationary support stand 100. In this case, as installed on the upper end of the shaft bearing 210 used in accordance with preferred implementations of the roller bearing with a tapered liner, which provides the rotation of the rotary shaft 200 and perceives created by him axial force, and as installed on the bottom of the shaft bearing 220 is used, in accordance with the preferred implementation option, cylindrical raikonen, as shown in Fig. 3, in the form of a hollow shaft to allow strip it of the cable (not shown) to transfer the signal electric power generated by the generator 400 of signal electric power to the Central controller (not shown).

The node 300 propeller includes a housing 310 of the propeller, which can be rotated together (as one unit) with the rotary shaft 200, the axis 320 of the propeller, which can rotate relative to the body 310 of the propeller, and the unit propeller 330 mounted on the upper end of the axis 320 of the propeller.

The housing 310 of the propeller, as shown in Fig. 3, is completely made of technical plastics in order to reduce the weight of the entire device and to simplify the technological production line by creating opportunities for independent production casing 310 and the rotary shaft 200.

In addition, as shown in Fig. 3, the housing 310 of the propeller includes a pair of fixing the flat elements 311 and 312 structures used for fixing the axis 320 of the propeller, while the axis 320 of the propeller installed in the fixing of flat elements 311 and 312 structure for rotation in a pair of bearings 323 and 324.

In the case budet below.

As shown in Fig. 3, as bearing 323, installed in the front fixing a flat element 311 design and related to the above-mentioned pair of bearings, 323, 324, used the ball bearing, which provides the rotation axis 320 of the propeller, and as bearing 324, installed in the rear locking planar element 312 design, used cylindrical roller bearing which receives the force arising during operation of the device.

In addition, the axis 320 of the propeller, as shown in Fig. 3, includes a flange element 321 to connect the node 330 of the propeller unit with rear locking planar structural member and the threaded portion 322 for connection unit 410 of the actuator with the end part of this axis.

Node 330 block of the propeller, as shown in Fig. 3, includes a rotary element 340 design, coupled with rear locking planar element 321 design axis 320 of the propeller, the set of blades of the propeller 350 (in the drawings, the number shows the blades of the propeller corresponds to eight), which can rotate in forward and reverse direction and fixed to the inner and outer parts of the rotary element 340 design and elastic fixed the S="ptx2">

The rotary element 340 design includes a flange element 341, which is connected with the mounting part of the flange element 325 axis 320 of the propeller, axial element 342, the speaker back from the Central part of the flange element 341 design, and lots of fixing the blades plates 343 (in the drawings, the number of such plates corresponds to 8, which corresponds to the number of propeller blades) made on the outer circumference of the intermediate portion of the axial element 342.

As shown in Fig. 5, the locking blade of the propeller plate 343 is installed radially with respect to the centerline of construction, and at the end of each locking blade propeller plate 343 is provided by a pair of rotary plates 344 having a groove 345 to install the blades.

Swivel plate 344 can be made independently from the locking blade propeller plate 343 and then just connected using screw a. In accordance with another variant of realization, the same plate can be made in the form of elements of the locking blade propeller plate 343.

On the locking blade propeller plate 343 is also provided a stopper 347, 350 EPA is set in the forward direction, at right angles to the axis 320 of the propeller.

The blade of the propeller is equipped with a connecting rod 351 of the propeller, which are fixed with the possibility of articulating deviations on the end part of the locking blade propeller plate 343, which can rotate in forward and backward directions and which act in the radial direction of this album, as well as the actual blade 352 propeller connected by threaded connection with the connecting rod 351 of the propeller.

To connect with opportunity swivel deflection of the inner part of the connecting rod 351 of the propeller with the end part of the locking blade propeller plate 343, the inner part of the connecting rod 351 of the propeller is inserted into the groove 345 to install propeller blades provided in the locking blade propeller plate 343, while the rotary plate 344 and the connecting rod 351 propeller inserted a hinge bolt 346. As shown in Fig. 3 and 4, the elastic locking the structural element includes an element 347 fixing springs made on the end of the axial element 342 of the rotary element 340 design, and creating a torque moment is pushed into the connecting rod 351 of the propeller.

Creates a torque spring 360 is installed by bending the spiral part 363 in the direction of the hinged finger 346, providing a hinged connection between the rotary plate 344 fixing plate 343 and the connecting rod 351 of the propeller, and the ends of its conclusions 361 and 362 can elastically fixed on the elements 347 and 353 mounting springs. It should be noted that in this case the necessary elastic fixation will not be provided if the conclusions 361 and 362 will be released from contact with the elements 347 and 353 mounting springs. Therefore, the conclusions 361 and 362 must be connected with elements 347 and 353 of fastening of the spring so that the spiral portion 363 could change its position.

Elements 347 and 353 mounting springs can be manufactured independently from the locking blade propeller plate 343 and screws a and a, but they can be made and the elements of the locking blade propeller plate 343 and connecting rod 351 of the propeller.

The generator 400 of signal electric power is selected, as shown in Fig. 3, in the region of the end portion of the axis 320 of the propeller and connected with it through the block 410 of the actuator.

Block 410 actuator includes a crown gear 411, is abellera, and fixed on the rear end of the axis 320 of the propeller planetary gear 412 which engages with the interior peripheral surface of the crown gear 411 gear 414 large diameter mounted coaxially with respect to the planetary gear 412, the gear 415 a small diameter which engages with the gear 414 large diameter, and an output shaft 416, which is connected with the gear 415 a small diameter.

Crown gear 411 is securely fixed on the axis 320 of the propeller by installing it through the threaded portion 322, made in the back end of the axis 320 of the propeller, the Central axis 320 of the propeller and by fastening nuts 418 on the threaded portion 322, the planetary gear 412 and a large diameter gear wheel 414 is fixed coaxially on both ends of the main shaft 413, and the output shaft 416 is mounted for rotation in element 313 of the drive body.

The output shaft 416 is made as one piece with the shaft of the generator 400 of signal electric power, and the gear 415 a small diameter and the output shaft 416 is connected with bearing clutch 419 clutch in one direction. Bearing clutch 419 clutch is used to transmit the turning effort of the gear 415 small the unit propeller is rotated in the opposite direction under the action of random gust of wind, acting in the opposite direction, the gear 415 small diameter actually slips relative to the output shaft 416 so that the corresponding rotary force is not transmitted to the output shaft 416, resulting in the output shaft 416 is always rotated in the previously known direction (normal direction of rotation).

In addition, on the output shaft 416 installed the flywheel 417 so that the rotation of the output shaft in a given direction was provided and due to inertial forces.

As for the generator 400 of signal electric power, as it is used for the DC generator. Generated by the signal thus electric power is transmitted to the battery (not shown) mounted on a Central controller (not shown) through a cable (not shown) passing through the hollow rotary shaft 200 and the stationary support stand 100.

As shown in Fig. 2 and 3, the node 300 propeller is closed with the front and rear side portions 371 and 372 of the housing to prevent it dust and foreign objects. These parts 371 and 372 of the housing attached to the streamlined shape to minimize their resistance to the wind.

The device for generating signal electric power based on the use of wind power can be installed in the form of independent, Autonomous design. However, it is preferred to carry out the installation at the same time a large number of such devices and through them parallel to generate signal electric power of a high level.

Below with reference to the accompanying drawings will be described in more detail the process of generating signal electric power.

When the wind is blowing to the right, in accordance with the direction specified on the drawings, and in accordance with the position of the device for generating signal electric power based on the use of wind power, as shown in Fig. 1, the blade of the propeller 350 rotates under the influence of wind energy, resulting rotates and the rotary element 340 design, coupled with blade propeller 350.

Stand the second part of the flange element 341 of the rotary element 340 design and flange element 321, connected to the mounting part of the flange element 341, which results in the rotation axis 320 of the propeller.

When the rotation axis 320 propeller both ends are fixed bearings 323 and 324 mounted in the housing 310 of the propeller. In this situation, when the front bearing 323 is made in the form of a ball bearing and the rear bearing 324 is made in the form of a cylindrical roller bearing, the axis 320 of the propeller will be, thanks to the chosen design type, to rotate under the influence of wind power.

The turning force created by the axis 320 of the propeller, is passed on to the crown gear 411 of the actuator 410 mounted on the threaded portion 322 with nuts 418, provided the increase in swing effort in the process of transmission to the planetary gear 412 which engages with a crown gear 411. This provides the rotation of the gear 414 large diameter mounted coaxially with respect to the planetary gear 412 on the control shaft 413, and a turning force is again increased in the process of transferring it to the gear 415 a small diameter which engages with the gear 414 large diameter, after which the turning force is transmitted to the output shaft 416 and manages generator 400 of signal electric power, which generates a signal electric power.

In this situation, due to the fact that on the output shaft 416 installed the flywheel 417, there is a possibility due to the inertial forces to ensure continuity of the process of rotation of the shaft.

When the wind blows in the opposite direction, under the influence of wind energy creates a torque about the vertical axis. Therefore, the entire node 300 propeller will rotate under the influence of the generated thus torque relative to the rotary shaft 200. Thus, it can be argued that the Central axial line unit 330 propeller always coincides with the direction of the wind.

When turning the rotary shaft 200 of this rotary shaft 200 is fixed to the upper and lower side bearings 210 and 220 relative to the stationary support stand 100, and an upper bearing 210 used a roller bearing with a tapered liner. In addition, through the use of the lower bearing 220, which used a cylindrical roller bearing, guaranteed reliable fixation site of the propeller, resulting in the normal rotation of the rotary shaft 200.

In addition, since the connecting rod 351 propeller blades 350 is connected to the stopper 347, this connecting rod 351 of the propeller is always set perpendicular to the axis 320 of the propeller in order to ensure the most efficient mode of creating a blade of the propeller 350 rotary efforts under the influence of wind power.

In this case, to optimize the turning force generated by the blade of the propeller 350, in situations where the wind speed is less than 20 meters per second, provides for the use of the elastic locking element design, in this case, if the magnitude of the wind speed is offset is t to prevail over elastic impact, created by the elastic locking the structural element, so that the blade of the propeller 350 rock back in the direction of the hinged finger 346, which will be achieved by reducing the effects of wind on the blade of the propeller 350, and will be excluded the possibility of destruction of the blades 350 and node 300 propeller.

As shown in Fig. 6, the dash-dotted line indicates the position which corresponds to the case of the maximum deviation ago propeller blades 350, in situations where the magnitude of the wind speed exceeds 60 meters per second.

In the situation when the blade of the propeller 350 backwards under the influence of wind energy, the magnitude of this impact on the blade of the propeller 350 is reduced in accordance with the amount of tilt, and the created by the wind turning force continuing influence on blade propeller 350, so that a continuous manner ensured the generation of a signal electric power.

As for creating torque of the spring 360 elastic locking element of the design, because its conclusions 361 and 362 respectively fixed on the element 347 mounting proia, and the spiral part 363 is arbitrary position within a predefined range of positions, the spring 360 can't get out of locking contact even in the event of a sudden rotation of the propeller blades 350.

In the situation when the blade of the propeller 350 is maximally tilted back under the influence of strong winds and the magnitude of the wind speed decreases below the preset level, the blade of the propeller 350 returns to its original position under the influence of the elastic locking element design, as shown by the solid line in Fig. 6.

In addition, generated by the generator 400 of signal electric power of the DC signal is used initially to charge the battery of the Central controller and only after several such operations is transmitted to a pre-defined element.

In Fig. 7 and 8 is illustrated a device for generating signal electric power based on the use of wind power in accordance with a second embodiment implementing the present invention, which is intended for installation in the sea.

As shown in these drawings, the rotary shaft 200 Ostanina in seawater and associated with the block anchor (not shown), installed on the seabed below the sea surface, the anchor cable 510. In this case, the node 300 propeller mounted on the rotary shaft 200 so that there is the possibility to generate signal electric power based on the use of wind power. In this case, since the unit is installed directly into the sea, essentially, there are no restrictions in place for the installation of this device compared with the case where the installation is done on earth. Since the construction of the rotary shaft 200 of the node 300 propeller and generator 400 of signal electric power is selected the same as in the case of a device in accordance with the first variant of realization of the present invention, the same structural elements in the drawings are designated with the same numerals.

In Fig. 9-11 illustrate the device for generating signal electric power based on the use of wind power, which is adapted with a view to its joint use with the device in accordance with the patent application in the Republic of Korea N 96-11790, so in order to be able more effectively to generate signal electric power when sharing device in accordance with the patent is for wind power in accordance with the present invention.

In this embodiment implementation of the present invention, as shown in Fig. 8 and 9, the rotary shaft 200 is mounted on the rotary shaft 700 buoy, resulting in connection with the possibility of rotation of the displacer 600 to a stationary support stand 100 is installed on the lattice structure 500, immersed in the sea, similarly to the case illustrated in Fig. 8 and 9. Because the design for embodiments of the present invention, illustrated in Fig. 10-11, is similar in design implemented for embodiments that are illustrated in Fig. 8 and 9, the description of this design in this case is not given.

In Fig. 9-11 figure 610 marked with the pump installed on the buoy, numeral 620 denoted by supporting structural member for fixing the float 600 in position, ensuring it is moved in the vertical direction, up and down, and numeral 800 labeled tube for supplying fluid under pressure intended for supplying pressure fluid pumped by the pump 610.

Above illustrative purposes were described in detail the preferred implementations of the present invention, for experts in the field of technology ocees out of the scope and essence of the present invention, defined by the following claims.

1. The device for generating signal electric power based on the use of wind power, containing perpendicularly mounted stationary support rack, a rotary shaft mounted for rotation in the stationary support rack, enclosure propeller mounted to rotate on the upper end of the rotary shaft, the axis of the propeller, mounted horizontally for rotation in the housing of the propeller blade propeller mounted for rotation in forward and reverse direction on the axis of the propeller, the site of the propeller, including the unit propeller having resilient locking means providing the fixation site of the propeller in vertical position, when the magnitude of the wind speed does not exceed a predefined level, and providing the deviation node of the propeller ago at a predefined angle when the magnitude of the wind speed exceeds a predetermined level, and the signal generator of electrical power connected to control with the other end part of the axis of the propeller to generate signal electric power.

2. The device according to the hydrated shaft is mounted to rotate in fixed pedestal and connected, also can be rotated with the rotary shaft of the buoy, providing a connection can be rotated with the buoy, which creates a driving force of a given magnitude as a result of its vertical movement up and down in accordance with the passage of the waves.

3. The device under item 1, in which the unit propeller on one end of the axis of the propeller is attached swivel design element, and the node of the propeller is connected with the possibility of deviation and rotation in forward and reverse with locking retainer Assembly propeller blade, made from the rotary element of the structure.

4. The device under item 1 or 3, wherein the node of the propeller includes a connecting rod propeller, mounted rotatably in forward and reverse direction on fixing the site of the propeller disc and the blade of a propeller connected with the connecting rod of the propeller.

5. The device under item 1 or 3, wherein the elastic fixing means made in the form of creating a torque spring, each end of which are connected, respectively, with the first element of the fastening spring made from the rotary element of design, and with the second fastening element of the spring, thus achieving the first between the axis of the propeller and the signal generator of electrical power.

7. The device according to p. 6, in which the drive unit includes: a crown gear mounted on the axis of the propeller, a planetary gear which engages with the inner peripheral surface of the crown gear, the large diameter gear connected coaxially with the planetary gear, the gear of small diameter which engages with the gear of large diameter, and an output shaft associated with the gear of small diameter and connected coaxially with the shaft of the generator signal electric power.

8. The device according to p. 6, in which between the small diameter gear and the output shaft has a bearing in the clutch for one direction.

9. The device under item 1 or 8, in which the output shaft includes installed on it the flywheel.

 

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FIELD: power engineering.

SUBSTANCE: method is designed for generating electric energy using natural energy enclosed in high pressure formation. Proposed method includes placing of turbine in well to which high-pressure agent is delivered, and electric generator with cable. Turbine is installed in encased well between showing high-pressure formation and intake low-pressure formation. Turbine is connected by pipes with electric energy generator. Flow of agent from high-pressure formation into low-pressure formation and to surface is provided. Regulation of agent flow into annulus and tube space is provided by distributing valve arranged in lower part of assembly of turbogenerator and hole between housing of turbine and pipe connecting tube space with annulus.

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