KR20070100455A - Wind generator a dust collector - Google Patents

Abstract

A dust collector for a wind generator is provided to set a progress direction to increase wind power applied to blades and to maximally reduce resistance in a reverse direction of the wind power. A dust collector for a wind generator includes windshield parts(10,90), a cable(31), fixing bars(30,40), couplings(60,70,80), a rotary part, and a wind direction dust collector(20). The windshield parts are mounted in a straight direction of the wind by a rudder(50). The windshield parts are mounted on a central shaft by the cable and the couplings connected to the fixing bars. The rotary part includes a multi-stage of blades installed on the central shaft in the windshield parts. The wind direction dust collector is mounted on the windshield parts to accelerate the wind to a rotary body.

Description

Wind generator a dust collector

1 is a perspective view showing a wind turbine for a preferred embodiment of the present invention.

Figure 2 is a perspective view showing a wind turbine for power generation of the present invention.

3 is a cross-sectional view showing a wind power rotating device of the present invention.

Figure 4 is a perspective view showing a wind turbine of another embodiment of the present invention.

5 is a use state diagram showing a wind power dust collector.

(Explanation of symbols for the main parts of the drawing)

10: left windshield 20: left dust collector

30: upper frame 40: lower frame

50: rudder 60: cable coupling

70: upper coupling 80: lower coupling

90: right windshield 100: upper housing

200: lower housing 300: wing feathers

400: amplifier 410: belt

500: generator 110: cable coupling

120: bolt 210: upper outer bolt

220: upper center bolt 230: lower outer bolt

240: lower center bolt 31: cable 91: central axis

The present invention relates to a wind power dust collector, and more specifically, to set the direction of travel according to the position of the wind direction to increase the force of the wind direction acting on the blades and the opposite direction constitutes a wind power dust collector that can reduce the resistance as much as possible In addition, the present invention relates to a wind power dust collector which maximizes power generation efficiency by doubling the utilization of wind power.

There are many ways to produce energy, but we are continuously doing research using solar energy, wind energy, tidal energy, and hydro energy using nature. Among them, wind generators are emerging as new renewable energy sources and environmentally friendly energy sources due to the depletion of finite energy resources. The typical wind turbine generator is a large structure in which propeller-type rotor blades are installed on a tower support shaft to obtain rotational force. There is also a configuration that adds a function to track the wind direction by installing the wind direction guide vanes, but for the wind turbine generator of a large structure type, it was difficult to instantaneously track the changing wind direction, and the simple propeller-type rotary wing Not only it is difficult to obtain sufficient rotational efficiency due to wind power, but also there are drawbacks such as installation problems and high cost due to the enlargement of the device. In order to compensate for this, a wind power generator having a small wind turbine and a wind direction tracking function has been disclosed. However, such a configuration has only a simple wind direction tracking function. Since there is no separate configuration, there was a limit to maximizing the power generation efficiency of the rotary blade.

In addition, the conventional generator uses a wind power generator consisting of a wing blade having a rotary blade blade 2 to 5 blades from the central axis.

Therefore, the object of the present invention to devise to solve the conventional problems is to set the direction of travel according to the position of the wind direction to increase the force of the wind direction acting on the wings and the opposite direction can reduce the resistance as much as possible, dust collector It is possible to increase the rotational force by blowing a strong wind direction to the rotating body by installing a, and to provide a wind power dust collector that maximizes the efficiency of power by doubling the utilization of wind power.

Another object of the present invention is to provide a wind turbine with low rotational resistance, which can be easily installed in various terrains and can be changed from large to small and medium-sized according to a desired power generation capacity, and has a wind direction tracking and induction function and dust collection of wind direction. .

In order to achieve this object, the present invention is configured to be mounted in a straight line in the direction of the wind by the rudder, both side windshield is mounted to the coupling connected to the cable and the fixed bar on the central axis, between the two windshields and the rudder The rotating part is arranged on the central axis of the multi-stage wing feathers is characterized in that the flow direction of the wind flows to the multi-stage wing feathers. In addition, the dust collector mounted on both windshields includes a feature that doubles the rotational force of the rotating body.

Another object of the present invention is to provide a wind power dust collecting device to obtain energy by using the wind direction to the maximum.

In a preferred embodiment of the present invention, the windshields on both sides form a streamlined front to reduce wind resistance, and form a small angle toward the wind from the central axis, and a large angle to block the wind to wind only to one side. And a dust collecting device mounted on both sides of the windscreen part.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings of the present invention.

In the present invention shown in Figures 1 to 5, both side windshields 10, 90 are mounted in a straight line in the direction of the wind by the rudder 50, the cable 31 and the fixed bar 30, the central axis Is mounted to the couplings (60, 70, 80) connected to 40,

Rotating portion 210 is arranged on the central axis 91 in the both side windshield (10, 90) is configured to guide the direction of the wind to the multi-stage wings. In addition, the wind direction dust collecting device 20 mounted on both side windshields is characterized by accelerating the wind direction to the rotating body.

Both side windshields 10 and 90 of the present invention are formed in a streamlined shape so that the wind proceeds in a state in which the wind is directed toward the wing feathers, thereby reducing the resistance of the wind and moving the wind from the central axis (a). Has a small angle (B), and the wind blocker forms a large angle (C) to induce the wind to one side only. In addition, wind gathers on both side windshields 10 and 90 itself, thereby intensively blowing wind on the wings of the rotor, thereby accelerating the rotational force of the rotor.

In addition, it is connected to the central axis 91 constitutes a coupling with a bearing so that the position can be changed according to the position of the wind direction. The upper coupling 70 to support the cable coupling 60 and the upper fixing bar 30 to fix the cable, and the lower coupling 80 to support the lower fixing bar 40 and the rudder 50 The upper horizontal bar 30 and the lower horizontal bar 40 is configured to connect with each other vertical bars. Connecting the upper horizontal bar 30 to the upper coupling 60 and arranging the rudder at the end thereof, and combining the lower horizontal bar 40 to the lower coupling 80 to move the rudder according to the position of the wind direction. It consists.

Rotating portion 210 formed between the two side windshields 10 and 90 and the rudder 50 is composed of an upper housing 100 and a lower housing 200 to arrange a plurality of wing feathers therebetween. This is connected to the spiral pipe 150 by collecting the central end portion is characterized in that the support connected to the end is configured radially on the central axis (91).

The rotary device for wind power generation of the present invention comprises a rotary cylindrical upper / lower housing with a rotary wind inflowing large wind direction to arrange the wing feathers.

The blade 300 is configured to be coupled to the mounting holes (100,200) by screws (210, 220, 230, 240), and is configured to be repaired and replaced.

Is installed in the upper / lower housing is composed of a multi-stage rotary vane that rotates about a central axis.

The wing blade 300 is in a state of being in a state of being in a state so as to receive the direction of the wind to uniformly serve to increase the rotation efficiency of the semi-curved rotating wing blade. When the incoming wind direction is dug into the rotary blades, the force of the air volume is transmitted to the blades and made to rotate.

As described above, the wings are arranged in multiple stages, connected to a support connected on the central axis, arranged to rotate the rotation axis, and the generator 500 connected to the belt 410 is mounted at the end of the central axis by connecting the amplifier gear 400 to generate power. It is configured to be made.

The central axis and the connecting portion is configured to be equipped with a bearing to minimize friction energy.

4 and 5, the rotation of the wind turbine dust collector of another preferred embodiment of the present invention constitutes a vane control unit capable of adjusting the angle of the vane.

Rotating portion 210 is arranged on the central axis between the two side windshield and the rudder is configured to guide the direction of the wind to the multi-stage wings.

Both windscreens of the present invention are formed in a streamlined shape so that the wind proceeds in an open state so that the wind direction is directed toward the wing feathers, thereby reducing the wind resistance and reducing the wind resistance from the central axis (a). Formed, and the wind blocking side was configured to induce the wind to only one side by forming a large angle (C).

It was configured as described above so that the wind proceeds to the open side to rotate the vane and both windscreens to prevent the wind from hitting the rotating feather in the opposite direction to prevent the resistance of the wind.

Both windshields themselves were equipped with a dust collector so as to accelerate the rotation of the vane.

As described above, if the wind turbine is installed by inspecting the wind direction and wind direction, it is possible to obtain infinite resources, thereby increasing profitability as well as facility cost. In addition, pollution-free resource development can solve environmental problems.

As described above, the present invention has been described with reference to the embodiments illustrated in the drawings, but this is merely exemplary, and it should be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. will be. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, the present invention produces electric energy using the wind direction, and thus has an effect of utilizing infinite resources.

In addition, the wind proceeds only to one side and the wind is collected by using a dust collector so that the rotor receives the wind direction, and the other side has the effect of maximizing the wind energy by preventing the rotor from being resisted.

Infinite resources can be obtained, which can generate profits by increasing facility cost recovery and power productivity, and since it is a pollution-free resource development, it is very useful invention for the alternative energy industry because it has the effect of operating environmental efficiency and generation efficiency.

Claims (2)

Both windshields are mounted in a straight line in the direction of the wind by the rudder, and are mounted on the coupling connected to the cable and the fixed bar on the central axis, The dust collecting device is mounted on both of the windshields themselves, and a rotating unit having a plurality of wing feathers arranged on a central axis between the two windshields and the rudder is configured to guide the direction of wind to the wing feathers of the multistage. Wind power precipitator. According to claim 1, The rotating portion is collected in the center end of the blade feather inside the upper and lower housings, and connected to the central axis with a spiral-shaped pipe, The wind turbine generator comprising a plurality of blades arranged in a row between the upper and lower housings, the support connected to the upper and lower centers are radially formed on the central axis, and mounted on the generator by mounting an amplifier at the end of the central axis.

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