KR20100040793A - Double pillar wind power generator for valley and collective wind power generation system using the same - Google Patents

Abstract

PURPOSE: Both pillars wind power installation for flume and the population wind power generation system utilizing this. Post is installed in both sides of flume and the horizontal rotating body installs integrated to post. The wind of flume easies, it is transformed to the electrical energy. CONSTITUTION: Both pillars wind power installation for flume and the population wind power generation system utilizing this. Two posts, rotator supporting plates, axis of horizontal rotation(5), brackets, wing retaining cardboard paper tubes, wing supporting plates and double sided impeller board(8) are included. Two posts is parked with the respective gates(2, 2') in both sides of flume. The rotator supporting plate is adhered in the column upper.

Description

Double pillar wind power generation system for valleys and collective wind power generation system using the same

The present invention is to fix the support so that it can be rotated by a column or a steel tower on both sides of the power generating rotor with a horizontal rotating shaft in order to be converted into power generation energy using the wind blowing from the valley formed in various forms The present invention relates to a system for converting blowing wind into power generation energy by rotating a horizontal rotating body and a stepped power generation system using the same.

Conventional wind turbine generators include American-Deck, Savo News, Gyro-Mill, Helical, Darius or Propeller-type. However, there is no valley wind power generation system that can be converted into generation energy using topographical conditions. There is no situation.

In order to be able to convert the winds of wide, narrow and deep valleys that turn into tides, into power generation energy, it is possible to install pillars on both sides of the valley and form a horizontal rotating body to form an integrated one, and to use the large valley winds of high and large mountains. The task of the construction of a large horizontal rotating body was set.

In view of the above points, in order to be able to convert the wind of tides blowing into tidal power after long-term experiments and studies, it is necessary to build steel towers or pillars on both sides of the valley, and the rotating body of horizontal rotating shaft is integrated thereon. Set up a solution to produce electrical energy with a generator that connects the rotating body to the wind of the valley which is turned into tides and installs it, and a large, high-capacity large-scale power generation system where large hills and large valleys are formed. The structure of the was set as a means of solving, and the rotating body made in this way was formed by stair-mounting the mountain to be fixed in many places where it was possible to produce the collective power generation energy.

Large and wide valleys with horizontal rotors with symmetrical blades or double-winged vanes installed horizontally on both sides of the valley, allowing the winds of the valleys to be easily converted into power generation energy. The high or low winds of the wind can be converted into large-capacity power generation energy, and the mountain can be cascaded, and the horizontal rotating body can be fixed to the low column to see the effect of collective development. It was.

In the construction of the two-post wind power generation system (A) for the valley, two pillars (1) (1 ') with entrances (2) and (2') on both sides of the valley were built and thus erected. At the top of the pillar (1) (1 ') is installed to form a rotating support plate (3) (3').

The rotating support plate (3) (3 ') thus formed is fastened to the bracket (4) (4') that allows the generator to be fastened and installed, and the horizontal rotating shaft (5) is fitted therein to the horizontal rotating shaft. (5) to allow the rotation and the middle portion of the horizontal rotating shaft (5) is made in this way by inserting the anti-vibration tube (39) to secure to have a safe rotation and thus the horizontal rotating shaft (5) and Wing support plate support tube (6) (6 ') (6 ") is inserted into the anti-vibration tube (39) at the same distance intervals to fix the wing support plate support tube (6) (6') (6) &Quot;) is integrated with wing support plate fasteners 9, 9 ', 9 " and 9' ", in which a plurality of binding holes 10, 10 ', 10 ", 10' " Wing support plate (9) (9 ') (9') (9 '") and nut hole 12 formed with double-sided wing plate (7) (7') (7") Bolted to The double-sided wing plates 8, 8 ', 8' and 8 'are joined in the same direction to the outer ends of the wing supporting plates 7, 7' and 7 "which are fixed in this manner. Double-sided blade plates 8, 8 ', 8', 8 '" in the nut holes 12 formed at the outer ends of the wing supporting plates 7, 7', 7 " By fastening and fastening with bolts and nuts at the bolt fasteners 16 of the blade support plates 7, 7 'and 7 "by joining with the binding holes 13, 13' and 13" of the The horizontal rotating body (B) formed of this, and the mountain (14) is made into a step (15), and both side columns (2) (2 ') of the horizontal rotating body (B) is shortly applied to the group Two large pillars 17 having openings and exits 18 and 18 'in the construction of a power generation complex system, and in the construction of a two-post wind power generation system for valleys (A-1). 17 ') and the wider rotor support plates 19, 19' are installed on top of the pillars 17, 17 '. It gives to the fixing.

In this way, the brackets 20 and 20 'which are fastened to the rotating shafts of the power generation systems 21 and 21' are fastened to the rotating body support plates 19 and 19 'which are fixed to the rotating body supporting plates 19 and 19'. The horizontal rotation shaft 22 is engaged with the shafts of the power generation systems 21 and 21 'so as to be rotated. Wing support plate support tubes 23 and 23 are attached to the horizontal rotation shaft 22. ') (23 ") is inserted into the tap hole 28 to fix and fasten the piece in this way, and then fix the fastening in this way, the wing support plate support tube 23, 23' (23") to the wing support plate tightening hole (30) The wings of the wing support plates 24, 24 'and 24 " formed by forming a plurality of wing support plates 29, 29', 29 " and 29 '" Insert the cardboard strip 31 in the same direction and fasten the bolt support to the wing support plate tightening hole 30 and the coupling hole 32 with bolt nuts and support the 12 wings Each of the wing plate supports 31 'formed at the outer ends of the 24, 24' and 24 " inserts the wing plate supporting plate 34 formed on the wing bonding plate 33 to bind the holes 35. And fixing holes (32 ') are fastened with bolt nuts.

In this way, the twelfth wing bonding plate 33 is made by attaching a symmetrical blade plate or double-sided wing plates 25, 25 ', 25 ", 25'" in the same direction.

형의 중앙후부 만곡형 날개판(36)을 형성하고 이와같이 하여서 된 중앙후부 만곡형 날개판(36)의 좌우 중간부에 날개지지판(37)(37')(37")과 날개판지지구 (38)(38')(38")로 형성시켜 주어서 된 것이다.The fabrication structure of the central posterior curved wing plate is entirely symmetrical and integrated.

Wing support plates 37 (37 ') (37 ") and wing plate supports (38) are formed in the left and right middle portions of the central posterior curved wing plate (36) formed in this manner. ) 38 'and 38 ".

Example 1

In the valley where the wind blows in a certain direction, only the horizontal rotary body of the present invention was installed and operated as a result of confirming the effect of generating power by superior and safe rotation in the propeller.

Example 2

Even in the stepped place, even if the side wind blows, the wing support plate, which is double-sided, is able to have rotational force by lifting force.

Example 3

It has been confirmed that large amounts of energy can be safely recovered from coastlines, hills and high and wide valleys.

[conclusion]

The wind of the valley, which has been disposed of normally unusable, can also generate enough power to generate power with the present system, and lower the pillars on both sides so that the stepped collective energy production can be safely operated. It was confirmed that large amounts of power generation energy can be produced in hills and large valleys.

1 is a perspective view of a two-pole wind turbine for the valley.

Figure 2 is a perspective view of the wing support plate support tube.

3 is a perspective view of the wing support plate.

Figure 4 is a perspective view of the double-sided blade plate.

5 is a cross-sectional view of the double-sided blade plate.

6 is a cascade collective wind power generation system.

Figure 7 is a perspective view of a two-pole wind turbine for the valley.

8 is a perspective view of the wing support plate support tube.

9 is a perspective view of the wing support plate.

10 is a perspective view of the blade binding plate.

11 is a perspective view of the central posterior curved wing plate;

Explanation of symbols on the main parts of the drawings

A, A-1: Valley wind turbine system B: Horizontal rotating body

    C: large horizontal rotating body

1,1 ': Column 2,2': Doorway 3,3 ': Rotating body support plate

4,4 ': Bracket 5: Horizontal rotating shaft

6,6'6 ": wing support plate support tube 7,7 ', 7": wing support plate

8,8 ', 8 ", 8'": Double-sided wing plate 9,9 ', 9 ", 9'": Wing support plate fastener

10,10 ', 10 ", 10'": binding hole 11: binding hole 12: nut hole

13: binder 14: mountain 15: stairs

16: bolt fastening 17,17 ': pillar 18,18': doorway

19,19 ': Rotator support plate 20,20': Bracket 21,21 ': Power generation system

22: horizontal rotation shaft 23,23 ', 23 ", 23'": wing support plate support tube

24,24 ', 24 ": Wing support plate 25,25', 25", 25 '": Double sided wing plate

26: wing binding plate 27: wing support plate support line

28: tap hole 29,29 ', 29 ", 29'": wing support plate support

30: wing support plate tightening 31,31 ': wing plate support 32,32': binding hole

33: wing bonding plate 34: wing bonding plate support plate 35: binding hole

36: center posterior curved wing plate 37,37 ', 37 ": wing plate support plate

38,38 ', 38 ": wing plate support 39: warpage tube

Claims (4)

In the construction of the two-post wind power generation system (A) for the valley, two pillars (1) (1 ') with entrances (2) and (2') on both sides of the valley were built and thus erected. The top of the pillar (1) (1 ') to the adhesive support to the rotating body support plate (3) (3'), and to install and form the rotor support plate (3) (3 ') in this way so that the generator can be fastened and fixed One bracket (4) (4 ') is fastened and fastened and the horizontal rotating shaft (5) is inserted therein so that the horizontal rotating shaft (5) can be rotated. (6) (6 ') (6 ") are inserted at intervals of the same distance so as to be fixed and thus fixed to the wing support plate support tubes (6), 6' and 6". 10 ') (10') (10 '") wing support plate fasteners (9) (9') (9 ') (9'") which are perforated in one piece. (9 ') (9 ") (9'") and nut balls Wing support plates (7) (7 ') (7 ") of double-sided wing plate type (12) formed are joined together and fastened with bolt nuts, and thus, wing support plates (7) (7') (7") At the outer end of the wing support plates 7, 7 'and 7 " in the same direction to fix the double-sided wing plates 8, 8', 8 " and 8 '" The wing support plate 7 is joined to the binding holes 13, 13 ', 13 "of the double-sided wing plates 8, 8', 8", 8 '"in the nut hole 12 formed therein. (7 ') (7 ") in the bolt fastener (16) by fastening and fastening completely with bolts and nuts to form a horizontal rotating body (B) integrally formed by the wind power generator for the valley and utilizing the Collective wind power systems A valley wind power that is formed by the step 14 of the mountain 14 and a short application of both pillars 2 and 2 'of the horizontal rotating body B to form a collective power generation system. Generating device and collective wind power generation system using the same. In the construction of the valley dual wind power generation system (A-1), two large pillars (17, 17 ') having entrances (18, 18') are erected and the pillar (17) On the upper end of the 17 ', a wide rotatable support plate 19, 19' is provided for installation, and the rotatable support plates 19, 19 ', which are thus formed, are installed in the power generation system 21, 21'. ) And the brackets 20 and 20 'fastened to each other and the horizontal rotating shaft 22 is fitted thereto so that the horizontal rotating shaft 22 can be rotated. Wing support plate support tube 23, 23 '(23 ") which is inserted into wing support plate support tube 23 (23') 23" by fastening and fixing in pieces to tap hole 28 in this way. The wing support plate supporters 29, 29 ', 29 ", 29'" formed by puncturing a plurality of wing support plate tightening holes 30 are formed on the wing support plate 24, respectively. The wing plate support 31 of 24 ') is inserted in the same direction, and the bolt support nut is fixed to the wing support plate tightening hole 30 and the coupling hole 32 by bolt nut, and thus 12 wing support plates Each of the wing plate supports 31 'formed at the outer ends of the 24, 24' and 24 " inserts the wing plate supporting plate 34 formed on the wing bonding plate 33 to bind the holes 35. And fixing holes 32 'are fastened to each other by bolt nuts, and thus the symmetrical blade plate or double-sided blade plates 25, 25' and 25 'are placed in the same direction on the 12 wing adhesive plates 33 thus formed. (25 '") is an adhesive fastening fixture for a valley wind power generation system and a collective wind power generation system using the same. The fabrication structure of the central posterior curved wing plate is entirely symmetrical and integrated.

Wing support plates 37 (37 ') (37 ") and wing plate support (38) are formed in the left and right middle portions of the central rear curved wing plate (36) formed in this manner. Valley wind turbines, which are formed into 38 (38) and 38 ", and collective wind turbines using them.

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