SU1548504A1 - Wind power plant - Google Patents

Abstract

The invention allows to increase the reliability of the wind power installation. During operation, the rotor type propeller 1, each blade (L) 2 of which is made in the form of two blades of the same profile, rotated 180 ° relative to each other and rigidly fixed to each other at the junction with the trunnions (C) 7 and 8, rotates and transmits the torque from rotation to the vertical shaft 9. Inside the latter there is a support stand 10, one end of which is installed in the support assembly 11, and the second end is connected to the fixed base with the help of the bracket 12 and the stretcher 13. During rotation of the wind wheel 1 around the vertical axis of the installation, each L 2, provided with a support roller 5 fixed in the fork 3, which contacts the ring track 4, the inner surface of which is connected to the ring track 15 by means of hydraulic jacks 25, rotates around its own axis of rotation. When the wind speed exceeds the permissible value, the vane 14, provided with a closed, shaped-shaped guide rail 20, with which the roller 19 of the g-shaped lever 18 contacts the C 8, is in turn connected to the support roller 5 by means of a rod 22 provided with a shoulder made in its middle part, the wind wheel 1 comes down and stops. To prevent icing, the ring track 4 is provided with removable covers in which the surface in contact with the support roller 5 L 2 is stepped, and the height of each step is less than the gap between the end face L 2 and the hinge ring 16 of the cross beam 6. 3 z. f-ly, 5 ill.

Description

(C) 7 and 8 rotates and transmits the torque from rotation to the vertical shaft 9. Inside the latter there is a support post 10, one end of which is installed in the support assembly 11, and the second end is connected to the fixed base with the help of the bracket 12 and the stretcher 13. . During rotation of the wind wheel 1 around the vertical axis of the installation, each L 2, provided with a support roller 5 fixed in the fork 3, which contacts the ring track C, the inner surface of which is connected to the ring track 15 by means of hydrojacks 25, also revolves around its own axis rotation When the wind speed exceeds the permissible value, the vane T, provided with a closed guide 20 of a clamped form, in contact with the roller 19 of the L-shaped lever 18 mounted on the C 8, is in turn associated with the support roller 5 by means of the rod 22 fitted with the shoulder, made in its middle part, is lowered and the wind wheel 1 stops. To prevent icing, the circular track C is provided with removable covers in which the surface in contact with the support roller 5 L 2 is stepped, and the height of each step is less than the clearance between the end face L 2 and the hinge ring 16 of the cross beam 6. 3 z. f-ly, 5 ill.

The invention relates to wind power and can be used in wind power installations.

The aim of the invention is to improve the reliability of the wind power installation.

Figure 1 shows a schematic of a wind farm, a general view) in Figure 2 - the same 30, top view, in FIG. 3 a blade; in fig. - coupling of the pin of the blade with the roller stem; figure 5 - the location of the casing on the ring road.

The Vetrosilov plant contains a rotor type wind turbine 1, each blade 2 of which is provided with a supporting roller 5 fixed in a fork 3 and in contact with the ring track k and connected to the trunnions 7 and 8 with vertical shaft 9, the support roller is placed inside the latter a stand 10, one end of which is installed in the support assembly 11, and the second with a bracket 12 and a stretcher 45 13 is connected to a fixed base and a vane 1. The installation further comprises an annular path 15 connected to the inner surface of an annular ring Races 1, each blade 2 provides the hinge rings 16 with which it is fixed on the cross-arms 6 with the possibility of rotation around the vertical axis and made in the form of two blades 17 having the same aerodynamic profile, rotated 180 ° relative to each other and rigidly fixed to each other at the junction with the pins 1, 8,

each bottom 8 of which is provided with 2 L-shaped levers 18 mounted at an acute angle to the transverse axis of the blade with rollers 19 fixed on them, the vane is equipped with a closed, shaped-shaped guide rail 20 and rollers 21. Each lower trunnion 8 is connected to a supporting roller 5 by means of a stem 22 provided with an annular shoulder 23 formed in its middle part, the upper part of the stem 22 is spherical and placed in a cavity 2 made in the trunnion 8, the annular flange 23 is placed in the end face of the lower trunnion 8, and the lower part of the stem 22 is rigidly connected fork 3, which is fixed to the support roller 5.

The ring track 15 is connected to the inner surface of the ring track by means of hydraulic jacks 25. The ring track k is equipped with removable covers 26 in which the surface in contact with the support roller S of the blade 2 is made stepwise, and the height of each spiral is smaller than the gap between the end of the blade 2 and the hinge ring 16 traverses 6.

Vetrosilov installation works as follows.

When the wind speed is within the range in the hydraulic jacks 25, the nominal pressure is maintained, ensuring that the rod 22 is in the upper extreme position. The levers 18 with one of their rollers T9 enter into the inside of the beak-like guide 20. Under

20

25

The wind vane 1U rotates and occupies the position shown in Fig. 2 with respect to the wind flow. Passing successive positions from I to V, the blades 2 transmit torque to the shaft 9 of the wind wheel 1 through the cross bars 6. When moving along the ring road k, the rollers 5 turn with the rod 22 around the longitudinal axis of the blade 2 independently

from the rotation of the blade 2 by the lever 18. When approaching the point V from the oncoming flow, the value of the positive torque is reduced to 0, and then from the drag of the air flow acting along the transverse axis of the blade 2, the torque takes a negative value, reaching its maximum in the point where the traverse 6 of the blade 2 becomes perpendicular to the direction of the wind. In this position, point A of blade 2 (Fig. 2) becomes as remote from the axis of wind installation as the point. In the same blade 2. Further movement of the blade 2 along the ring road removes point A of blade 2 from the axis of the wind turbine and approaches point B in the same blade 2. The blade 2 itself continues to move in the air flow in such a way that its transverse axis coincides with the direction of the wind. Point A of the blade from the internal (as compared to its position in positions I-IV) is transferred to the external one and then again transferred to section V-VI from the external orbit to the internal one. In section V-VI, the outer wall of the closed guide vane has a gap, which makes it possible to reduce the cost of mechanical energy for moving the blade 2 in a counter-flow.

As the wind speed increases beyond the allowable, the jacks of the jacks are lowered, dragging down the vane 14 with a guide for the deflecting levers. The rotor stops as the blades 2 freely rotating in the hinges represent a symmetrical system about the axis of the installation. If ice is formed on the blade x 2 on the ring road, shells 26 are mounted with quick-detachable yokes.

invention 1. Vetrosilov installation containing a rotor blade rotor wheel

thirty

35

40

45

50

55

0

five

0

five

0

five

a type, each blade of which is provided with a support roller fixed in a fork and in contact with the ring track and connected by means of cross-arms and trunnions to a vertical shaft; inside the latter there is a support stand, one end of which is installed in the support assembly and the other with a fixed base, and a vane, characterized in that, in order to increase reliability of operation, the installation further comprises an annular track associated with the inner surface of the circular track, each blade is provided with hinged rings, with the help of which it is fixed on traverses with the possibility of rotation around the vertical axis and made in the form of two blades ,. having the same aerodynamic profile, rotated relative to each other by 180 ° and rigidly fixed to each other at the point of connection with the trunnions, each of which is provided with L-shaped levers installed at an acute angle to the transverse axis of the blade with the rollers fixed on them, guide

staples and rollers i

2. Installation pop. 1, distinguished from the fact that each lower trunnion is connected to a support roller by means of a rod equipped with an annular collar made in its middle part, the upper part of the rod is spherical and placed in a cavity made in the trunnion , the annular flange is located at the end of the lower trunnion, and the lower part of the stem is rigidly connected

with a fork in which the support roller is attached.

3. Installation according to claim 1, characterized in that the annular track is connected to the inner surface of the circular route by means of hydraulic jacks.

4. Installation pop. 1, which differs from the fact that the ring road is equipped with removable covers in which the surface in contact with the support roller of the blade is stepped, and the height of each step is less than the gap between the end of the blade and the traverse hinge ring.

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Editor A. Shandor

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Compiled by Y.Ignatiev

Tehred A. Kravchuk Proofreader M. Pojo

Order 128

Circulation 356

VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab., T./5

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Claims (3)

•Claim 1, A wind power installation containing a rotor-type blade wind wheel, each blade of which is equipped with a support roller fixed in a fork and in contact with the annular track and connected by means of traverses and trunnions with a vertical shaft, inside of the latter there is a support post _> one end of which is installed in the support unit, and the other, using an arm and extensions, is connected with a fixed base, and a weather vane, characterized in that, in order to increase the reliability of operation, the installation further comprises an annular track associated with with the inner surface of the annular track, each blade is equipped with hinged rings, with the help of which it is fixed on the traverses with the possibility of rotation around the vertical axis and made in the form of two blades having the same aerodynamic profile, rotated, turned relative to each other by ΐ8θ ° and rigidly fixed between each other at the junction with pins, each lower of which is equipped with L-shaped levers with rollers fixed to them with an acute angle to the transverse axis of the blade, the weather vane is equipped with a closed staple guide and rollers. The installation according to claim 1, with the fact that each lower one is connected to the support roller by 2. The trunnion is provided with a rod means equipped with an annular collar made in its middle part, the upper part of the stem is spherical and placed in a cavity made in the trunnion, the annular bead is placed at the end of the lower trunnion, and the lower part of the stem is rigidly connected to the fork, in which fixed support roller, 3. Installation according to claim 1, with respect to the fact that the annular path is connected to the inner surface of the annular path by means of hydraulic jacks. I ¹ 4. Installation according to π.1, with the fact that the annular route is equipped with removable covers, in which the surface in contact with the support roller of the blade is made 55 steps, and the height of each step is less the gap between the end of the blade and the hinge ring of the beam.