KR20160040482A - A wind turbine that forms a radially concentric layer formation of tubes with both sides turned around the axis of rotation - Google Patents

Abstract

The present invention relates to a wind turbine. The wind turbine is rotated using the velocity of wind. A blade plate of the turbine is rotated against the pushing power of the wind to rotate the turbine, thereby operating a generator connected to the turbine. Thus, the present invention generates electricity through the wind turbine for generating electricity.

Description

A wind turbine forming radially concentric layers in a tube whose both sides are turned around a rotating shaft;

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wind turbine using wind, and more particularly, to a wind turbine using a wind, To a wind turbine

Generally, the turbine blades that rotate by using the wind form a twist on a plurality of fixed blade blades, so that when the twisted blades are installed around the rotating shaft at an angle of twisting, Wind turbines are the predominant type of wind turbines that cause the wind to strike the twisted area, and the effect of twisting the wing,

However, the twisted wing plate which is installed long around the rotating shaft is the weight of the wing extending from the rotating shaft, and the wing plate can not withstand the strong wind, and the wing is bent and the wing plate and the wing plate The problem of wing which is difficult to use wind effectively

The present invention is characterized in that a wind passing hole to receive wind around a rotating shaft is formed in a bar shape around a rotating shaft and many wind passing holes are densely installed around the rotating shaft to fix and install a plurality of wind passing holes and wind passing holes It is an object of the present invention to provide a wind turbine capable of maintaining a long life without breaking or deforming the plate even at a strong wind speed by rotating the plate by the angled angle of the plate when the wind is applied to the number of the plates

The present invention relates to a wind turbine blade in which a plurality of blades are formed in a long length around a commercialized rotary shaft, in order to prevent the wind between the blades and the blades from passing through the turbine without touching the blades, And a flat plate formed between the frame tube and the frame tube is fixedly installed and the angle formed between the flat plate and the rotation axis direction is formed into a strong plate with each wind passing hole, And is formed around the rotating shaft so that the wind passing holes are densely packed and concentrically arranged in a radially layered manner and solidly installed around the rotating shaft

The present invention is based on the fact that the wind passing through a turbine is formed on a plate having a wind speed converging on each wind passage, A wind turbine can be used to produce electricity using wind power through a wind tunnel which is broken or does not break even at strong wind speeds

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
2 is a perspective view of a wind turbine forming a wind tunnel used in the present invention.
3 is a front view of the turbine wind-
Fig. 4 is a flowchart showing the operation of the wind turbine according to the present invention

The wind turbine 777 of the present invention as shown in Figs. 1, 2, 3 and 4 includes an inner end portion 554 of the fall tube 810 collecting the wind 55 of the turbine front 722, The turbine frame pipe 222 is fixedly connected to the turbine frame 556 such that the wind 55 to be applied to the turbine is guided into the turbine 777 to concentrate on the windflow passage 088. [ The trunk pipe 222 and the tubular trunk pipe 810 are formed as one body. A rotation shaft 444 is installed in the center of the trunk pipe 222 in parallel with the trunk pipe 222 through the trunk support

A central rod 434 having a diameter 404 larger than the diameter of the rotary shaft by a tube concentric around the rotary shaft 444 is welded and secured to the rotary shaft 444 by an arrow 644 along the rotary shaft 444. [ And welded to the center bar 303 and fixed to the center bar 303 by the welding 066 as indicated by the arrow 066 to form a first deformed plate formed by the radial plane 817 of the concentric circle 910 about the rotation axis 444. [ (701).

The inner diameter 772 of the one-dimensional tube 074 formed in a primary concentric circle around the upper surface 091 of the first plate 701 and the rotation axis 444 with the primary plate 701 as an intermediate medium, (066) as shown in Fig.

The radius 644 of the center rod 434 is formed concentrically around the rotation axis by a length 599 of the erected plate 701 of the first plate 701 which is spaced apart from the rotation axis 444 by 644, The upper surface 944 of the primary circular pipe 074 is indicated by a dotted line and the upper surface 944 of the primary circular pipe 074 as a concentric circle of the radial direction 817 in the direction of the arrow 817 with respect to the rotation axis 444 along the upper surface 944 of the primary circular pipe 074. [ The upper surface 944 and the plate and the plate are welded (066) by spacing 551 at a predetermined distance 551 between the arrows 551 along the primary circular tube 074, Thereby forming a second flat plate 702

The upper surface 811 of the second plate 207 is welded with the upper surface 811 of the second plate 702 and welded to the upper surface 811 of the second plate 207, The tube 075 is spaced apart from the plate 702 and the arrow 744 by a second angle so that they are spaced 744 apart from each other as indicated by an arrow 744 and are concentric with the secondary rotation axis 444, (075) is formed on the upper surface of (075)

A plurality of radial projections 817 are formed concentrically around the rotary shaft 444 along the upper surface 656 of the two-dimensional mold pipe 075 and are welded (066) with a constant spacing 661 (661) A carved plate 703 is installed in the secondary circular tube

As described above, a leg plate is installed radially between the primary circular pipe 074, the secondary circular pipe 075 and the tertiary circular pipe 076 around the rotary shaft 444, Each of which is fixed around the rotating shaft 444 and spaced apart from the radial 817 of the concentric circle 910 and installed in the radial direction 817 as a layer 910 of the concentric circle 910 around the rotation axis, Is installed

The deformed plate 991 has a reference surface 119 on the left side 905 of the plate 991 and a reference surface 119 on the right side 889 of the left surface 905, Is fixedly connected to the circular plate 177 so as to be erected in a straight line 599 in the direction of a straight line arrow 817 of the radial direction 817 with the rotation axis as the center and moved (995) as shown by the arrow 995, And an angle 995 at which each of the flat plates 99 is formed is formed and fixed to the circular tube 177 by welding 066 or bolt to be concentric with the rotary shaft 444 through the circular tube 177, Shaped plate 998 is formed by a plate and plate wind passage 088 such as a mutual turn mark 066 and the angled angle 995 is formed by the rotation axis 444 And the angled plates 991 are installed at angles that are angled in one direction

The present invention is described above with reference to Figures 1 to 5 by fixing the position 777 of the turbine 777 to the ground 100 in order to secure a strong wind speed 55 of the wind 55, A turbine fixing table 511 is installed upright on the ground surface 100 as shown in FIG.

The turbine 777 is formed on the upper end 133 of the turbine fixing table 133 in a manner such that the turbine 777 is vertically downward from the lower end 741 of the turbine 777 on the thrust bearing 471 provided in the fixed upper end groove 661 of the dotted- The fixed shaft 822 is fitted in the fixed upper end groove 661 like the dotted circle display 333 so that the bottom surface 228 of the turbine fixed shaft 822 is placed on the thrust bearing 471 and the dotted circle display 333 The turbine casing pipe 222 is installed on the turbine wheel top 333

A configuration in which the wind turbine of the present invention installed on the turbine stage upper end 133 as described above is rotated by receiving the wind speed 655 of the wind 55 will be described in detail

2 and 4, to the front 722 of the turbine 777 to increase the wind speed 655 of the wind 55 passing through the wind passage 088 of the turbine as indicated by arrow 778 A trunk tube 810 for collecting the wind 55 into the turbine casing 95 as shown by the arrow 59 is connected and fixed to the front surface 554 of the turbine frame tube 222 like a dotted circular indicator 556

The wind passage 088 is fixed to the inner side 597 of the turbine rim pipe 222 in the lateral direction as indicated by the arrow 344 on the right central portion 444 of the rim pipe 222 through the rotary shaft 444 A rotary shaft support 491 is fixed to the inside of the turbine frame pipe 222 by welding 066 as shown by a dotted circle mark 194 on the front side 490 and the rear side 480 of the frame pipe 222, Around the centering rod 434 formed on the rotating shaft 444, the primary plate 701 of the turbine is fixed with a radial direction 817 around the rotating shaft 444 as shown in Fig. 2

The turbine fixing shaft 822 installed in the upper groove 661 of the upper end 133 of the turbine fixing plate 133 of the dotted circle display 333 is obtained on the thrust bearing 471 in the form of a dotted circular mark 333 The turbine 777 is formed to be a turning operation 08 in which the turbine direction is turned to the left and right from the turbine fixing table upper end 133 around the turbine fixing shaft 822, A rudder 353 is fixed to the rear surface 833 of the upper surface 833 so that the trunk 810 of the turbine 777 is directed in the direction in which the wind 55 is blown by the rudder 353

In the above description, the rotating operation principle of the turbine 777 of the present invention will be described.

A plate 703 which is thirdly turned on the first plate 701 is formed by a circular tube 177 and a tube so that the wind passing through the front windshield 704 and the windshield 033, The wind tunnel 088 having the concentric circular arrangement 388 as the center of the rotary shaft 444 has a center shaft 434 which forms a body with the rotary shaft 444 as shown in FIG. So that the rotary shaft 444 is installed on the rotary shaft supporter 491 and is positioned inside the frame pipe 222 as indicated by an arrow 005 in FIG.

The turbine 777 is connected to the torpedo tube 810 and the dashed circular indicia 554 in the view shown in Fig. 4 and is connected to the rim of the turbine through which the wind flows in the direction of the arrow 655 through the torpedo tube 810 A rotary shaft supporter 491 for fixing the rotary shaft 444 to the pipe inner diameter 597 in the front 490 and rear 481 of the pipe 222 at the center of the pipe 222 in the pipe 222, And a wind passage hole 088 is provided between the rotary shaft supporters 491 so as to be parallel to and laterally parallel to the frame pipe 222. In this way, do.

The turbine 777 of the present invention is fixed to the center shaft 444 of the frame tube 222 by fixing the center shaft 30 to the rotating shaft 444 and the shaft 444 is rotated along the length 344 of the rotating shaft 444 Since the inner diameter 667 of the turbine rim pipe 222 is formed as the diameter of the center rod 434 formed by the rotation axis 444 around the rotation axis, The diameter 667 of the rim pipe 222 is formed to be reduced as shown by an arrow mark 667

The wind speed force 655 of the wind 655 flowing into the inside 957 of the frame pipe 222 through the fall pipe 810 is transmitted to the circumference of the rotating shaft 444 through the inside of the frame pipe 222 Of the respective windings 088 in the direction of advance of the wind in the direction of the wind of the arrow 778 to be passed as the arrow 778 into each of the windings 088 formed by the windings 088, At an angled angle 995 of an arrow 995 of the arrow 995 of the open plate 910 with the rotary shaft 444 as the center on one side to the right as shown by the arrow 995, The angled plate 998 of the tilted plate 998 is tilted in one direction by the action of the wind speed force 655 passing through the wind passage 088 as indicated by the arrow 655, The plate 991 is received by the force of the wind 55 which pushes the plate 991 in the direction of the arrow 655, And the respective wind passing holes rotate in the direction of the arrow 707 while rotating the rotating shaft 444 in the opposite direction 707 of the direction 995 to the wind. The length of the radius of the center rod 303 of the center rod 303 is set to be the same as the radius of the center rod 434 because the center rod 434 is fixed to the center rod 434 with the rotation axis 444 and the center rod 434 spaced apart from the rotation axis 444 by arrows 644. [ The turbine 777 of the present invention which forms the primary wind passage 022 of the state 644 that is formed to be larger than the length 599 of the plate 701 and separated from the rotary shaft 444 by 644, 444 and the spacing 644 so that each wind passage 088 has a force to strongly rotate the rotary shaft 444 through the wind 55. [

It is preferable that the center bar 303 and each wind tunnel 088 are made of a hard and strong light material and the wind passage 088 is formed lightly

3, a wind passage hole 088 formed by connecting and fixing the center rod 434 of the rotary shaft 444 is formed concentrically with a radial direction 817, and a layer 077 is provided with a plurality of wind passage holes 088 And rotates the turbine 777 with a large amount of wind force.

As described above, each of the wind passing holes 088 forming the angled angle 995 revolves in the direction of the arrow 707 to the wind 55 of the arrow 778 and turns the turbine in the direction of the arrow 707 The rotational force is obtained

The turbine 777 of the present invention is also connected to the turbine 777 of the arrow 081 when the wind 778 passes through the primary wind passage 088, the secondary wind passage 088 and the tertiary wind passage 088 The first deformed plate 701 as described above is welded and fixed by passing through each of the wind holes 088 in which the thickness 081 is formed so that the edge tube 222 The wind 665 passing through the center bar 434 protruding through the rotary shaft 444 to the front rotary shaft support 491 through the inner wall 957 passes through the wind passage hole 088 as indicated by the arrow 778 The turbine 777 is installed to form a strong wind velocity 778 to pass through the narrowed turbine space since the wind passing through the wind passage is reduced due to the thickness of the plate of each wind passage 088

Claims (1)

In a wind turbine having a radially concentric tube layer formed on both sides of a rotating shaft,
The plate 701, which is integrally formed with the rotation axis along the rotation axis 444 as a center around the rotation axis 444, is fixed around the pipe. The plate 701 is spaced apart from each other by a predetermined distance 335, And a radius of the tube 644 is formed by the raised length 599 of the primary deflected plate 701 and toward the fallopian tube 810 by a concentric arrays 077 of radials 817 about the engine, A center bar 434 which protrudes from the plate 701 which is first formed with the rotation shaft 444 by a predetermined angle 490 and the space 667 of the frame pipe 222 is reduced,
(077) in which the pipes and tubes are layered in the radial direction (817) of the concentric circles (077) about the rotation axis (44) And the space of the pipe is formed to be relatively smaller than the space 667 of the rim pipe 222 and the pipe and the pipe are rotated around the rotation axis 444 The wind is passed through the pipe and the pipe and the wind is discharged out of the turbine and fixed to the pipe 222 through the rotary shaft 444 and the rotary shaft support 491 and the plate 991, A wind passage hole (088) provided concentrically with the curved plate (744) spaced apart from the inner diameter (597) of the rim pipe (222) by a narrow gap (373);
The tubes and tubes are connected to each other around a rotating shaft 444 and are formed as a radial pattern 817 of concentric arrays 077. The right side surface 905 of the left side plate 988 and the right side plate 997 of the tube and pipe, A planar plate 991 of the airflow passage 088 that forms an angle 995 that the face 889 is straightened with the radial direction 817 about the rotary axis 444 and turned to one side about the rotary axis 444; And
A wind passage hole 088 and a wind passage hole 088 are formed in a concentric arrangement 077 of the radial interconnection 817 around the rotation axis 444 and the right plate 997 and the left plate 988 of the pipe are overlapped, And the tube is formed in such a manner that the tube overlaps the concentric arrangement 077 about the rotation axis 444 and the wind hole 088 is formed at the time of the rotation operation 707 of the wind hole 088 And a concentric circular tube (910) of a wind passage (088) forming a straight horizontal line (344) with the wind direction (778) so as not to disturb the traveling direction (778) of the wind passing therethrough. A wind turbine that forms a radially concentric layer formation of a tube whose both sides are turned around

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