UA82741C2 - Wind-electric power plant veu - Google Patents

Abstract

A wind-electric power plant includes three-blade windmill that has horizontal axis of rotation of windwheel, this coincides with wind direction. To three-blade windmill a two-stage cylindrical reducer is connected, this transfers force from three-blade windmill to electric generator. Blades of three-blade windmill are made of pressed aluminum profiles with hollow channels inside. Besides that wind-electric unit additionally includes tail-vane unit that permanently directs three-blade windmill to wind, centrifugal aerodynamical controller of angular velocity that rotates blades with respect to long axis of those, and control block that in its turn includes excitation block of electric generator.

Description

additionally contains an electromagnetic clutch from the winding cranks are set in such a way that when the control beam is turned, the wind power installation containing the masts in the upper vertical will fill additional capacitors, the stabilization device of the wife they are in the extreme left position, that the voltage, the pulse shaper, that sets the generator corresponds to the maximum opening of the sails, the frequency, the synchronization device and the amplifier, and the housings of the planetary conical reducers why the wind engine is installed through the transmission device with the possibility of free circular is disconnected from the speed sensor and the drive shaft of rotation around the axis of the fixed central hex electromagnetic clutch, which is the output shaft of the connections, which are in the horizontal plane, on the body of the nano with the rotor of the n-pole multi-speed planetary gearboxes, the worm gears of the asynchronous generator, whose windings are connected to the gearboxes, and the worm shafts are installed mesh wheels are rigidly connected to the input of the switching unit, the output of which is connected to the consisting of two extreme and central drums each with disturbance capacitors, additional capacitors with the possibility of circular rotation around the axis, and sators, with output clamps, the device between these drums is equipped with couplings with the possibility of voltage stabilization and a pulse shaper, which with the possibility of axial movement to enter the is connected to the first input of the synchronization device with the shaft of the outer and central bars, and its second input is connected to the ban generator, and electromagnets are installed on the bodies of the planetary conical frequency reducers, which sets the output of the torus synchronization device, and on the extreme and connected to the input of the amplifier, and the latter - from the central drums installed electromagnets - the control winding of the electromagnetic clutch. there are brakes that are connected to the hull, and on the masts

Features in common with the claimed device are the installed brackets on which the hinged stands are: a wind engine, an electric generator, new vertical drums on each shaft, which are used to transmit mechanical force from which the sail panels are wound, and the lower vertical of the wind engine to the electric generator, block drums on which the drive cables for regulating the electric current are wound. outer and central drums, in addition to this on

The reasons that prevent vertical drums from obtaining the desired technical result are insufficiently successful triangular sails, and the third peak is the channel of the selected type of electric generator and vittams through the blocks that are fixed on the backstage through the rafter. blocks with drums.

The famous wind-electric motor Ideclarations- common features with the device that the claimed patent of Ukraine for utility model Me3277 is: a vertical column with a wind motor,

IPC" gО301/00, 15.11.2004, Bull. Me11, 2004|, reducer and generator. which is made in the form of a vertical column, vit- The reasons that prevent the obtaining of moat wheels, gear mechanisms, reducer and gene- the required technical result are excessive rotor, which is distinguished by the fact that on the vertical - the complexity of the structure. column is hingedly installed a stand with a well-known wind power plant (application for the possibility of free rotation around the axis in the horizontal plane, on the left end of the stand at the IPC" gО301 /00, date of publication 2005.09.101, that the axis is supported, which is fixed in the vertical - contains a base, placed on the base in a vertical position with a brace, and on the column a rigid rotor with fixed on the rotor concave fixed in the horizontal plane and perpendicular blades , an electric generator drive, electrically connected to the support axis, a stand on the edges of which is an old-fashioned generator, a parameter stabilization block linear reducers of air wheels of electric current. The installation contains a horizon - in such a way that conical solar gears are rigidly connected to it in the form of a concentrator of air flows, and the housings of planetary reducers of a cylindrical drum fixed on a shaft are installed with the possibility of free rotation on the rotor of the wind power plant, the wind blade - around the axis , and the sprockets, which are fixed on the housings of the re-energizing installation, are placed from the external ductor, are connected by a chain transmission from the star side of the horizontal concentrator of the air cams of the shaft, which through the pulleys of the reducer is connected by holders to the rotor shaft with the motor transmission connected to the shaft of the generator, and with angular movement relative to the rotor shaft, a stabilizer is installed between the column and the stand, the fan plane is hinged on the blade holders, and the base of the wind wheel is pusher wheels resting in the grooves disk sockets, the base of the conical planetary gearbox, on which the wind energy system attached to the rotor shaft on the same plane with an interval of 120" evenly along the top. Three tubular masts are rigidly installed on the holders of the blades of the wind power circle, elements are placed on the installations, which provide the ends of which in their plane and perpendicular to the opening of the blades in the absence of air, three guides are rigidly fixed to their axes, at the end of the flow impinging on them, and dampen a sharp bend between the masts, in a plane perpendicular to the axis, the moving of the blades with the holders at the rap- straight, set axes of the wings, and on the axial change in the speed of the air flows. Wind-uninstalled curtains, which are connected by connecting rods to a cross-reel installation can also contain a nom placed on a guide, and vertical upper and lower concentrators through the masts, air-installed shafts, at the ends of which are placed conical streamers that have the ability to move satellite gears, which are engaged with the non-vertical relative to the blades of the wind energy by a movable central gear, and cranks that open or close access to through the connecting rods are connected to the sliders, on the backstage of some air flows. Triangular fabric threads fixed by the top of the wind energy installation additionally contain an automatic splitting mechanism, which are fixed on a roller on one side, and the opening or closing of the gap between the vertical upper and lower concentrators of air currents is the basis of the invention. , depending on the speed of air flows, the electrical installation, by changing the design of the wind energy installation elements and the introduction of additional devices, which The mechanism of automatic opening or closing - ensure the stability of the electrical current of the gap between the vertical upper and lower ends and reliability in operation by air flow concentrators is performed in trilo - moving to the block-cable mechanism for lifting the wind turbine, reducer, asynchronous or lowering the vertical upper and (or) lower three-phase electric generator, and the block of air flow concentrators. The ventilation blades, according to the invention, of the three-bladed wind turbine are placed on the entire cylinder, the wind turbine has a horizontal axis of rotation of the wind-reducing surface of the horizontal loess concentrator, which coincides with the direction of the wind, to the air flows and are made in the form of plates - the three-bladed wind engine is attached two-stage, moving away from the cylindrical surface, a cylindrical reducer that transmits the force of the horizontal air flow concentrator from the three-bladed wind engine to the electrogepodetic. The blades of the nerator wind energy installation, the blades of the three-bladed wind engine are placed on a cylindrical surface horizontally, made of pressed aluminum profiles from the concentrator of air flows with possible hollow channels inside, the control unit of the turn on the axis located on the forming contains the excitation unit of the electric generator, and the cylindrical surface of the horizontal concentrator, and the wind power plant additionally contains a torus for capturing air flows, which is a bi-wind device that constantly orients the trilog. wind turbine for wind, and centrifugal ae-

The reasons that prevent the obtaining of the relative angular velocity regulator, which is the desired technical result, are the relative over-rotation of the blades around their longitudinal axis. the dimensional complexity of the design, which significantly affects the The first additional difference is the price of a wind power plant. that a three-blade wind engine with a two-stage

An autonomous wind-electric cylindrical gear, asynchronous three-phase station of low power was chosen as the prototype (Ukrainian patent for a core electric generator and a wind-driven sleep device model Me13702, MPK" НО2РО/00; РОЗ3О3/00; mounted on a support-turning mechanism, which

ЕО309/00, publication date 04/17/2006, which contains a wind turbine installed on a pipe support, and an electric wind turbine, an electric generator, a device for a nerator with a two-stage cylindrical reducer for the transmission of mechanical force from the wind turbine are placed in the middle of the casing, which protects them from electrical generator, control unit against adverse weather conditions. of electric current, according to a useful model. The second additional difference is that, as a wind engine, it contains a three-bladed semi- that the blades of a three-bladed wind engine have a pos- spherical aerodynamic profile of the wind engine, hidden cross-section, in hollow channels as an electric generator - asynchronous three-phase- of each blade the cable is stretched, which in the case of the latter generator with excitation capacitors, as the coding of the blade, does not allow it to detach the electric current control block - stable - from the three-bladed wind engine. voltage congestion, and also additionally contains a reducer. The third additional difference is that the phase number converter, which consists of two transformers with different coefficients mounted on the support-rotary mechanism of the winding device, has impellers located on both sides of the transformations that are connected to individual phases, thanks to which a three-bladed wind turbine is the output of a three-phase generator, and one gong is constantly oriented to the wind. cycle of the primary winding of the first transformer. The fourth additional difference is that the control unit additionally contains a block generator, and the second contact of the primary winding is connected to one of the phases of the asynchronous three-phase. of the first transformer is connected to the network. The fifth additional difference is that the secondary point of the second transformer, and the secondary windings of both transformers are connected to a source of uninterrupted power supply by AC and connected to a voltage stabilizer, the output of which by the mains voltage current, which consists of connected to the consumer. Transformer coefficient of charger, battery and inverter. tion of the first transformer is greater in 2 times Sixth additional, to the first additional, from- and with, Щ minity is that the support-pipe consists of- from the transformation coefficient of the second is transformed from connected fasteners of two or three motors. sections, there is a key on the lower section, for

Common features with the device, which is used to start or stop trills, are: the presence in the design of the device - a wind turbine. prototype three-bladed wind engine, reducer, The essence of the invention is explained by the drawings, where the asynchronous three-phase electric generator Fig. 1 shows the general view of the wind generator, and the control unit. of the wind turbine installation, shown in Fig. 2 in the collection

The reasons that prevent the three-bladed wind engine in Fig. 3 from obtaining the required technical result are that the cross-section of the blade is not sufficiently illustrated, and in Fig. A, the selected type of wind engine and the relative composition generator systems. wind power plant.

The wind power plant of the wind power plant consists of a three-bladed wind motor 1, which is placed on the bend 1. shaft 2. The shaft 2 is connected to a two-stage cylinder. The three-bladed wind engine 1 rotates the moment to the asynchronous electric motor of the three-phase shaft 2, which, with the help of a two-stage cylinder current, which performs the functions of an electric generator of the manual gearbox 3, transmits the rotational motor (not shown in the drawings). The wind device of the electric generator (not shown in the drawings). 4 orients the three-bladed wind engine 1 to the wind. Orientation by the direction of the wind flow

Three-bladed wind engine 1, two-stage cyl- is performed with the help of a wind-dross device ndris reducer 3, electric generator and wind-dros- 4. Three-bladed wind engine 1 in relation to the device 4 mounted on the support-turning wind flow is located behind the support-pipe 5. mechanisms (in the drawings not shown), which set- The torque on a three-bladed wind engine is installed on a support-tube 5 consisting of two 1 is created due to the effect on each blade or three sections. Two-stage cylindrical 15 aerodynamic wind lift. The gearbox with the electric generator are in the same value of the angular speed of rotation in the middle of the casing 6, which protects them from the action of the unfavorable blade wind engine 1 in the speed range of mild weather conditions. The wind (4.5-25 m/s) is connected to the support-pipe 5 by the centrifugal aerodyno, which is provided by four spacers 7, which are attached to the regulator 18 with the help of rods 8. If the wind speed is attached to the anchors 9. To adjust and speed 25 m/s, three-bladed wind engine 1 auto-lubricating in the vertical position is automatically switched off. The torque from the pipe 5 of the abutment 7 is pulled with the help of a three-bladed wind engine 1 through two-stage gears 10 from four sides. The lifting boom 11 is driven by the cylindrical gearbox C, which is transmitted electrified in order to turn the resistance-pipe 5 current into a vertical position during the installation of the generator unit, which generates an alternating three-phase current. On the middle of the pipe support 5 around the hinged mechanism 12 with the help of an electric cable (the drawings do not show a winch or a tractor. On the lower section of the support) generated alternating three-phase current above the pipe 5 there is a key 13, with the help of which goes to of the control and excitation unit 14, where the three-bladed wind-driven voltage parameter control is started or stopped, gun 1. The control unit and the excitation unit 14 provide control of the further direction of the three-phase furnace control of the voltage parameters, control of the alternating current to the voltage stabilizer unit, and further by directing the three-phase alternating current, ensuring the excitation of the asynchronous current, as well as the operation of the asynchronous electric motor, which performs the functions of an electric generator in the electric generator mode. Three-bladed rotor (Fig. 4). The stabilized three-phase voltage of the wind engine 1 consists of three blades 15 3808, 50Hz from the voltage stabilizer unit (Fig. 2), which are rigidly fixed in the swings 16, which, in relation to the switching device, which works in turn, on bearings installed in hub - in automatic and/or manual mode and controls the shaft 17. The external aerodynamic regulator has options for operating modes: angular speed 18 provides the ability to turn 1) autonomous, in which the stabilized three-phase rotation of the blades 15 around their longitudinal axis during the voltage 3808, 50Hz is supplied to the consumer; of centrifugal forces acting on loads 19 under 2) standby mode, in which the rotation time of the three-bladed wind engine 1 is stabilized. Three-phase voltage 3808, 50 Hz is supplied to the loads 19 rigidly fixed on the swings 16. The blades 15 are a device that straightens alternating voltage made of aluminum alloys (GOST 4784-97) constant and charges the battery. Pos- by the extrusion method according to DSTU B V. 2.6-3-95 (GOST voltage from the battery comes 22233-93) and have the form of pressed profiles on the inverter, which converts the constant voltage into a constant cross-section with hollow bodies variable single-phase stabilized voltage 2208, channels in the middle. Fig. 3 shows a cross section of 50 Hz, which, if necessary, reaches the cross-section of the blade, which consists of the body 20, to the consumer. Charger, battery tank, which has hollow channels 21-25. The shape, tarey, and inverter are the components of the uninterruptible power supply. determined as a result of experimental studies - 3) the mode by which the generator of different options of hollow channels is simultaneously directed, the selection of the stabilized three-phase voltage of the optimal shape and number of hollow channels to the consumer. 3808, 50Hz from the switching device, and also

Hollow channels have the following functional purpose: single-phase stabilized voltage 2208, 50 Hz from the inverter. - reduce the weight of the blade; Feedback from the inverter to the electric generator provides increased durability and the supercharger can be used to maintain durability thanks to the hardening of the aluminum alloy of the electric motor in the electric generator mode throughout the thickness of the blade walls, while the ra disappears when the wind speed is below the possibility of appearing microcracks in the body of the blade; 4.5m/sec. This makes it possible to provide a more hollow channel 21, in addition, it is intended for long-term and stable operation of the wind-electric system for balancing the blades; rates of wind turbines. - in the cavity, channels 22 and 25 are stretched and fixed. Previous tests of the experimental wind power plant showed that the cable (not shown in the drawings), which is functional for the wind power plant, does not work in the event of mechanical damage to the blade. .

The wind-electric wind turbine installation of the wind power plant that is in operation can be manufactured on a standardized, relatively simple design, reliable in terms of equipment.

M. I

. ry 1 z v I sche i i SHHA i t s yah PI

MM ev PTN and TUYA Y I Y

Those went and in the pu:

MO ee and 17 | yik Ii and y

In li! IB | x ra ! It's strict! Yes! rya eat KE. to her also: She and Yin This t | and

THESE. and es MI Y

A pe av shk y and This and their V o -- and I with ! y y EK Gya yiv Kz DN, mab nya Sho and TI

MA and dovi I, " і ! 15 of the dlnnh IV for I det vv VNIM SHE. POMOOMONVVESTese:- OSHA

Fig. 1 il i tener

Control tank and and approx

Medea and? currents

I am 2-9 | "tzmtsizatera quantum !

E pon Shose Y and voltage m n

Shan: ! Sho skill ov opo Dodon ozh (Z g hu TU i ХЕ u. 1 scho I M in M - | Zarikhnvya ! shchi ZKumuliatrnh: sn) kyertuh e schu ohh v zh s ; prnshri | Yazhyreh sho 7 - poison AND WHAT; x i, ; and

I in, -i/: The tree of Pekhurovvtogo zhaiemnh 1 x H fig. Which one am I from?

Computer layout 0. Gaponenko Signature Circulation 26 approx.

Ministry of Education and Science of Ukraine

State Department of Intellectual Property, str. Urytskogo, 45, Kyiv, MSP, 03680, Ukraine

SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, Kyiv - 42, 01601