KR200309871Y1 - Wind Power Generator Adjustable Wind Power - Google Patents

Abstract

The present invention relates to a wind power generator for converting the rotational force of the wind into electrical energy by installing a guide member for guiding the wind in front of the rotor blade portion by increasing the wind speed efficiently even when the wind strength is weak The part can be rotated, and if the wind strength is strong, the air suction door installed at the outer periphery of the guide member can be opened to substantially weaken the strength of the wind that hits the rotary blade, thereby preventing damage to the rotary blade.

Description

Wind power generator that can control the intensity of the wind {Wind Power Generator Adjustable Wind Power}

The present invention relates to a wind power generator, and more particularly, to a wind power generator capable of actively responding to changes in the direction and intensity of wind blowing from the front, which can convert wind power into rotational force with maximum efficiency.

Wind power generator is generated by using wind generated from nature, and is one of the pollution-free and fuel-free energy generating devices that are in the spotlight recently in terms of preventing environmental pollution. In general, the wind turbine is composed of a rotary blade portion that can be rotated by the wind, and a power generation unit that is an energy generating unit for converting the rotational force generated by the wind into electrical energy. However, since the wind blowing from nature does not always have a constant direction and a constant intensity, it is difficult to efficiently respond to the change in the direction and intensity of the wind. Therefore, it can be freely changed to the position receiving the maximum wind according to the direction of the wind, and when the wind strength is small, it can operate by increasing the wind speed efficiently, and can cope flexibly even when the wind strength is large. Wind turbines were required.

The present invention is derived from the above necessity, by providing a wind generator that can generate energy at the maximum efficiency by allowing the rotor blade portion of the wind generator to efficiently collide with the wind regardless of the change in the direction and intensity of the wind. It aims to do it.

In addition, the present invention aims to prevent the breakage of the rotary blades by the wind by reducing the amount of wind directly hit the rotary blades, when the wind strength is large.

1 is a perspective view of a wind power generator according to the present invention;

2 is a side cross-sectional view of a wind turbine generator according to the present invention;

3 is an enlarged view of a portion A of FIG. 2; And

Figure 4 is an enlarged cross-sectional view of the guide member and the air suction door portion according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: rotary blade portion 11: the rotating shaft

13: rotary blade 14: inner member

15: outer member 16: rolling means

20: power generation unit 30: direction control member

40: guide member 41: through hole

42: air suction door 43: opening and closing means

44: speed sensor 45: guide jaw

50: control unit

In order to achieve the above object, the present invention is a wind power generator for converting rotational force by wind into electrical energy, the rotary blade including a rotary blade installed to have a predetermined angle with respect to the direction of the wind blowing, and the rotary blade A power generation unit for converting the rotational force of the negative rotation shaft into electrical energy, and located in front of the rotary blade portion, accommodates the front end of the rotary shaft portion of the rotary blade, and installed vertically vertically to rotate in the left and right directions according to the wind direction It is a hollow cone shape that extends from the front to the rear with the adjustment member, integrally formed with the direction control member, and guides the wind in the front center portion to the rear outer portion to concentrate the wind on the rotary blade located at the rear. Including a guide member to strike the wind to focus on the rotor blades to be hit.

In addition, the front end portion of the guide member of the present invention is formed with a through hole, the rear end portion is formed with a guide jaw along the outer periphery, the guide jaw to make a cloud contact with the rolling means formed from the rotary blades As a result, the pressure difference between the inside and the outside of the guide member may be reduced by allowing the wind to pass through the through hole, and the rotary blade unit may be connected to the guide member by the rolling means, thereby facilitating the rotation of the rotary blade unit.

In addition, the guide member of the present invention is at least one series of air suction doors formed to be opened and closed along the circumferential direction on the circumferential surface, a speed sensor for measuring the speed of the wind at a predetermined position, and by the speed sensor Judging the strength of the wind and the control unit for opening the air intake door if the wind intensity is above a predetermined reference value, if the wind strength is strong, induce the wind through the passage opened by the air intake door Decreases the strength of the wind on the wing.

Hereinafter, with reference to the accompanying drawings looks at in more detail the wind turbine according to the present invention. 1 is a perspective view of a wind turbine according to the present invention, Figure 2 is a side cross-sectional view of the wind turbine according to the present invention, Figure 3 is an enlarged view of the portion A of Figure 2, and Figure 4 is a guide according to the present invention It is the figure which expanded and sectional drawing of a member, and the air suction door part.

As shown in Figure 1 and 2, the wind power generator according to the present invention rotates by the wind blade portion 10 for generating a rotational force, and the rotary blade portion generated by the rotation of the rotary blade portion 10 Power generation unit 20 for generating electricity by the rotational force of the rotary shaft 11, the direction control member 30 is installed in front of the rotary blade portion 10 to rotate in accordance with the wind direction, and the rotary blade It is provided with a guide member 40 for guiding the wind blowing from the front of the portion 10 to the rotary blade 10.

The rotary blade unit 10 is connected radially by the support 12 around the rotation axis 11, the outer side of the support 12, the cylindrical inner member 14 and the outer member 15 is installed The rotor blades 13 are integrally formed between the inner member 14 and the outer member 15. The rotary blades 13 may have various shapes, but in the present embodiment, the rotary blades 13 are formed to have a predetermined angle with a direction of blowing wind (axial direction of the rotary shaft) and rotate about the rotary shaft 11 by wind. You can do it. The rotary shaft 11 of the rotary blade unit 10 is connected to the motor of the power generation unit 20 by a rotational force transmission means such as a gear to convert the rotational force into electrical energy. In addition, the front end of the rotary shaft 11 of the rotary blade portion 10 is accommodated in the direction control member 30 installed in front of the rotary blade portion 10 is rotated by the direction control member 30 and the rotary blade portion Allow (10) to rotate together.

Both ends of the direction control member 30 are rotatably connected to the support member 31 so that the direction control member 30 can be supported by the support member 31 and rotate in the horizontal direction. As shown in FIG. 1, the front end 32 of the direction control member 30 is sharply formed so as to be sensitive to the change in the direction of the wind. As a result, when the direction of the wind changes, the direction control member 30 rotates in the left and right directions so that the wind can always enter from the front of the direction control member 30. As the direction control member 30 rotates, the rotary blade unit 10 connected by the rotary shaft 11 rotates together, so that the wind always flows from the front of the rotary blade unit 10 and hits the rotary blade unit 10. Hit it. Therefore, even if a change occurs in the direction of the wind, the rotor blade 13 of the rotary blade unit 10 and the wind to maintain a predetermined angle to always generate the maximum rotational force.

In front of the rotary wing 10 is a conical guide member 40 is also provided. The guide member 40 is narrowed toward the front, the rear end is connected by the rotary blade unit 10 and the rolling means (16). In addition, the guide member 40 has a hollow shape. Since the guide member 40 has a conical shape, the wind blowing from the front of the front center portion is guided to the rear outer portion so as to concentrate and collide with the rotary blades 14 located behind the guide. As a result, even when the wind strength is weak, it is possible to rotate the rotary blades 14 by the wind concentrated on the rear outer portion.

1 and 2, the guide member 40 is formed integrally with the direction control member 30 so that the direction control member 30 rotates in the left and right directions according to the direction of the wind. In this case, as with the rotary blade unit 10 and rotates together with the direction control member 30, the relative position of the guide member 40 and the rotary blade unit 10 is always constant regardless of the direction of the wind. In addition, a through hole 41 having a predetermined diameter is formed at the front end of the guide member 40. As shown in FIG. 2, the through-hole 41 introduces the wind blowing from the front into the guide member 40, so that the pressure P and the pressure P ′ on the outside of the guide member 40 are introduced. ) To compensate for the pressure by making almost no difference. Therefore, the back flow and the vortex are prevented from occurring due to the pressure difference between the inside and the outside of the guide member 40 at the rear end of the guide member 40 so that the wind guided by the guide member 40 is rotated without pressure loss. By hitting the blade 13 to increase the conversion efficiency of the wind is converted into rotational force.

In addition, as shown in Figure 3, at the rear end of the guide member 40, the guide jaw 45 is formed along the outer periphery. The rolling means 16 connected to the guide jaw 45 by the rotary blade unit 10 and the connecting member is in contact with the cloud. The rolling means 16 and the guide jaw 45 maintains the connection between the rotary blade unit 10 and the guide member 40, while the rotary blade unit 10 is the guide jaw 45 of the guide member 10. To be constrained to rotate.

1 and 4, on the outer surface of the conical shape of the guide member 40 according to the present invention, a series of air suction doors 42 are formed to be opened and closed along the outer periphery. The air suction door 42 may be formed to overlap a plurality of lines depending on the design. In this embodiment, the air suction door 42 may be opened and closed by an opening and closing means 43 including a foldable link structure or a hydraulic cylinder as shown in the enlarged view of FIG. The closing means 43 may be replaced by controllable opening and closing means such as a motor, depending on the design. The air suction door 42 is open when there is a risk that the rotary blade 13 is damaged due to the strength of the wind is increased, the portion of the wind is concentrated and guided by the guide member 40 to the inside of the guide member 40 By entering, the action of weakening the strength of the wind directly hit the rotary blades (13).

In addition, the present invention, as shown in Figure 1, in order to detect the strength of the wind speed sensor 44 and the like to detect the speed of the wind may be installed on the outer surface of the guide member 40, the speed sensor ( The control unit 50 may further include a control unit 50 for controlling the opening and closing state of the air suction door 42 by receiving the speed of the wind detected by 44. The controller 50 receives the wind speed from the speed sensor 44, converts the wind speed into a wind strength, and compares the wind speed with a preset reference value. When the determined wind strength is greater than the reference value, the opening and closing means ( 43) to open or partially open the air intake door 42 to weaken the strength of the wind that strikes the rotary blade 13 so that excessive load is not applied to the rotary blade.

As described above, the wind power generator according to the present invention can install a guide member for guiding the wind in front of the rotor blades to rotate the rotor blades by efficiently increasing the wind speed even when the strength of the wind is weak, wind If the strength of the strong to open the air suction door installed on the outer periphery of the guide member to substantially weaken the strength of the wind hit the rotary blades to prevent damage to the rotary blades.

In addition, by the direction control member that rotates from side to side in accordance with the direction of the wind so that the wind can always be blown from the front of the rotary blade to enable to effectively rotate the rotary blade.

Claims (3)

Wind power generator that converts the rotational force of the wind into electrical energy, A rotary blade unit including rotary blades installed to have a predetermined angle with respect to a wind blowing direction; A power generation unit for converting the rotational force of the rotary shaft of the rotary blade into electrical energy; Located in the front of the rotary blade portion, and accommodates the front end of the rotary shaft of the rotary blade portion, and installed vertically vertically and rotates in the left and right directions according to the direction of the wind, and Hollow conical shape that extends from the front to the rear, is formed integrally with the direction control member, and guides the wind to the center of the rotary wing located in the rear to guide the wind in the front central portion to the rear outer portion to hit the guide Wind power generator comprising a. The method of claim 1, The through end is formed in the front end of the guide member, the guide end is formed along the outer periphery of the rear end, the guide jaw is characterized in that the wind contact with the rolling means extending from the rotary blades generator. The method according to claim 1 or 2, The guide member is at least one series of air suction doors formed to be opened and closed along the circumferential direction on the circumferential surface, a speed sensor for measuring the speed of the wind at a predetermined position, and determines the strength of the wind by the speed sensor And a control unit which opens the air suction door when the wind intensity is equal to or greater than a preset reference value.