KR101700740B1 - Wind turbine combined with solar power - Google Patents

Abstract

The present invention relates to a wind turbine combined with a solar cell, and more particularly, to a wind turbine that generates power by wind blowing unevenly, inducing uniform rotation as much as possible, and there is a demand for high quality electric power. Generally, non-uniformity of power due to power generation by sunlight or wind power causes a problem in stable supply of power, and therefore, a solution device is required.

The present invention will now be described in detail with reference to the accompanying drawings in which: a column pipe 28 projected to be fixed to a frame 23 in a building 40 or a wind movement section formed on a hill; (14) (16), a wind force rotating device (15) provided in a rotary space (17) interlocked to rotate between the upper and lower support plates (14, 16) The upper and lower enlarged support plates 14 'and 16' are formed on the edges of the upper and lower enlarged support plates 14 'and 16' And a control device (37) provided on the upper and lower support plates (14, 16), respectively,

A moving groove 30 that is assembled to the upper and lower enlarged support plates 14 'and 16' so as to move the upper and lower ends of the guide wall 34 in an assembled manner; A movable wall 52 formed of a fixed spindle 57 and a fixed spindle 51. The movable wall 52 is provided with a roller 59 in the fixed spindle 56 to be driven by the movable groove 30, 17) of the wind turbine.

Rotating device, moving wall, moving groove

Description

Solar power combined wind power generator {omitted}

The present invention relates to a wind turbine combined with a solar cell, and more particularly, to a wind turbine that generates power by wind blowing unevenly, inducing uniform rotation as much as possible, and there is a demand for high quality electric power.

Generally, non-uniformity of power due to power generation by sunlight or wind power causes a problem in stable supply of power, and therefore, a solution device is required.

In addition, since most of the wind turbine rotor blades require a large-sized rotor blade in order to utilize a large amount of wind power, there is a limit in installing the wind turbine blade in the urban area or hilly area, so that the cross- The upper and lower wind force induction supporting plates are installed and used.

In addition, there is hygienic problems due to the sunshine in the shaded shaded areas or the basements between the high-rise buildings in the downtown area due to the development of the economy, and the lack of conditions for fullness of moisture and light disinfection.

In addition, it is demanded that the demand for power by wind power is increased due to the economic condition of renewable energy for environmental protection due to warming.

Especially when the power is needed in the valley where the wind mainly flows in the section between the high-rise buildings in the urban area or the mountainous area, when the wind power is too strong, the rotational force is reduced by passing a part of the wind power, , It is necessary to reinforce the use amount as much as possible and to provide the uniformity of the rotational force.

In addition, due to the development of sensor technology, it is possible to provide a control device for rotationally driving the wind turbine so as to induce the wind force in accordance with the combined wind direction.

Also, in order to supply electric power to a factory area or a downtown home, it is necessary to supply a uniform and high quality power that functions, thereby increasing the use of electric power for the power supply.

Also, in case of strong winds in mountainous areas and fields, wind power generators generating electric power by blowing wind are introduced by the applicant's registration of preliminary invention.

In addition, most of the weather is windy and the weather is often blurred or nighttime. In the sunny weather, there is almost no wind. Therefore, in order to provide the maximum possible environmentally friendly power, So that the generator can be accommodated.

In order to minimize the error in the rotational speed of the wind turbine by adjusting the amount of induced wind by the provided wind turbine generator, As provided conventionally, provides a solution to the required conditions of the large space for the exposed rotary vane, and also provides for a uniform rotation of the rotating device It is for stable use in the narrowest possible space for wind power efficiency.

In addition to the power generation by wind power, it also provides sunlight to induce sunlight to shade of buildings and so on, thereby providing environment friendly environment.

It is intended not only to generate electricity by wind power combined with wind power, but also to form a solar induction section so as to induce sunlight, and to provide solar power and power generation as needed.

A column pipe 28 projected to be fixed to the frame 23 in a wind movement section formed in the building 40 or a hill, upper and lower support plates 14 and 16 fixed to the pipe 28, A wind power rotating device 15 provided in a rotating space 17 interlocked to rotate between the upper and lower support plates 14 and 16 and a wind power generating device 15 formed at the edges of the upper and lower support plates 14 and 16, Upper and lower side enlarging supporting plates 14 ', 16' for induction,

An induction wall 34 is formed on the upper and lower enlarged supporting plates 14 'and 16' to form an oiling tool 31 and an anemometer 50 and a control unit 37 are provided on the upper and lower supporting plates 14 and 16, respectively. The wind turbine according to claim 1,

A movable groove 30 which is assembled to the upper and lower enlarged support plates 14 'and 16' so as to move the upper and lower ends of the guide wall 34 by assembling,

The guiding wall 34 includes a moving wall 52 having a bending-like movable wall 57 and a fixed padding 51,

The moving wall 52 is provided to adjust the inflow amount of the wind force to the rotating space 17 by forming the roller 59 on the fixed rod 56 so as to be driven by the moving groove 30.

In addition, a fixing rod 56 fixed between the upper and lower enlarged supporting plates 14 'and 16' is assembled to the edge of the guide wall 34 with a dialing hole 58, And a piston 53 is provided on the other side of the guide wall 34 so that driving of the guide wall 34 by the anemometer 50 and the control device 37 is performed for the rotation space 17 This invention is provided to control the inflow amount of wind power.

The present invention is a power generation block for wind power generation for achieving a uniform quality of power as possible on a road, which is a section between blocks of a building in a city center.

In other words, the invention is an invention for providing environment-friendly power by providing high-quality electric power with respect to the quality of electric power generated by wind power.

In addition, it is useful not only for wind power but also for generating sunlight and inducing sunlight to be used for sound and so forth, thereby providing environmentally friendly effects.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a cross-sectional view taken along the line AA in FIG. 1, and FIG. 4 is a partially enlarged cross-sectional view of the recess in the present invention. FIG. And FIG. 5 is a cross-sectional view taken along line BB in FIG. 4. FIG. 6 is a cross-sectional view of an operation state for enlargement of a concave portion in FIG. 4, FIG. 7 is a partial perspective view of an embodiment of a concave portion in FIG. 7 is a cross-sectional view taken along a line CC in FIG. 7, FIG. 9 is a cross-sectional view taken along line DD in FIG. 7, FIG. 10 is a partial cross-sectional view of an embodiment of the present invention, and FIG. 11 is a partially enlarged perspective view of FIG.

Therefore, the object of the present invention is to provide a device for generating rotation by wind power, which is a main part of the present invention, to provide uniformity of rotation speed with respect to changes in wind force. In order to adjust the rotational speed while providing a strong rotational force by the wind force that is blowing from the ground as condensation, a wind blowing structure (40) As an invention for providing the exclusive block 10 with the amount of wind flowing in accordance with the intensity of the strong wind to be rotated at a uniform speed as possible, as one embodiment will be described with reference to FIGS. 1 to 5 ,

In the present invention, in the wind turbine rotating device 15 for obtaining a strong rotating force as much as possible by the wind force, the conventional open rotor blade occupying a wide space is difficult to effectively provide rotational force by the wind force in the urban area. To provide an embodiment.

The upper and lower support plates 14 and 16 fixed to the column pipe 28 while being fixedly projected by the frame 23 or the like in the wind movement section or the hill or the like between the buildings 40, The upper and lower supporting plates 14 and 16 are provided on the rotating space 17 and constitute upper and lower enlarged supporting plates 14 'and 16' for wind force induction formed at the edges of the upper and lower supporting plates 14 and 16 (16 ') projecting from the edge to the outer edge of the upper and lower support plates (14) and (16) so as to allow the wind power blowing in the step ; A plurality of induction walls 34 and oil guides 31 are equally spaced in the circumferential direction of the upper and lower enlarged support plates 14 'and 16' so that they can flow in the same direction irrespective of the wind direction. And the outer section is formed into a cylindrical shape.

The upper and lower support plates 14 and 16 are each provided with an anemometer 50 and its control device 37 so as to measure changes in the direction of the wind force depending on the season and accordingly, This is accomplished by moving or driving the guide wall 34 described above by the control force of the controller 37 to adjust the rotational force of the wind turbine 15 with respect to the guide wall 34. [

The upper and lower enlarged support plates 14 'and 16' are provided with moving grooves 30 on the upper and lower edges of the guide wall 34 so as to move while assembled to the upper and lower edges of the guide wall 34 ;

The bending-type movable wall 57 and the fixed padding 57 are formed in the entire upper and lower sections of the guide wall 34 so as to be formed by the moving wall 52 formed by the copper wall 57 and the fixed padding 51. [ 51 so as to move the guide wall 34 by driving the roller 59 and the lap 55 by driving a motor (not shown), which will be described later, Wow;

At the edge of the guide wall 34, the guide rod 34 is moved by the driving of the roller 59 to the stationary rod 56 fixed to the upper and lower enlarged support plates 14 ', 16' To control the inflow amount of wind power to the wind turbine (17).

In one embodiment, the upper and lower enlarged supporting plates 14 'provided on the outer circumference of the rotating space 17 are formed in the same manner as in the first embodiment. The section of the moving groove 30 provided between the upper and lower enlarged support plates 14 'and 16' is formed as the edge of the upper and lower enlarged support plates 14 'and 16' in the section (b) The moving wall 52 formed by the fixed padding 51 and the bending movable wall 57 provided at the outer edge is connected to the roller 59 'connected to the pump not shown by the lap 55, When the guide wall 34 is pulled into the section (b), which is the section in which the guide wall 34 is fixed, the movable wall 52 is pulled so that the section where the guide wall 34 is installed, that is, the section (a) The blowing strong wind passes through the rotating space 17 without being flowed into the rotating space 17, It eliminates unevenness of power generation due to rapid increase.

Further, when the wind force is relatively breeze, a large amount of functional wind must be induced. Therefore, the fixed padding 51 and the bending padding 57 formed at the inner edge adjacent to the rotating space 17 are formed When the moving wall 52 is pulled to the section (a) by the roller 59 connected to the pump not shown by the lap 55, the guide wall 34 described above moves to the section where the guide wall 34 is originally formed , And allows the possible wind force to flow into the rotary space (17).

The driving of the motor, the roller 59 and the like described herein is provided to be controlled by the anemometer 50 and the control device 39 connected thereto.

(Figs. 3 to 6)

(1)

An example of the induction wall 34 for forming the wind force induction section 31 between the upper and lower enlarged support plates 14 'and 16' is described at the edge of the induction wall 34, And the guide wall 34 is connected to a hinge which is not shown while assembling the fixing rod 42 to the fixing ring groove 51 ' A piston 55 is fixed to the other side of the guide wall 34 by a ring groove 58 and a fixing pin to the other side edge of the upper and lower enlarged support plates 14 ', 16' and the guide wall 34, And the guide wall 34 is connected to the piston 34 so as to control the inflow amount of wind power into the rotation section 17 according to the extent of the wind power by the anemometer 50 and the control device 37. [ 55). ≪ / RTI >

The guide wall 34 described above is formed as a section that stably moves in accordance with a section between the upper and lower enlarged support plates 14 'and 16'. Accordingly, the driving of the guide wall 34 is provided so as to control the inflow amount of the wind force to the rotary space 17.

The assembly of the upper and lower support plates 14 and 16 and the wind-driven rotary device 15 is fixed around the column pipe 28, and is aligned with the edge of the upper and lower support plates 14 and 16 Size wind turbine 15 as shown in FIG.

Between the wind-driven rotary device 15 and the column pipe 28, a cylindrical drum (not shown) having a predetermined size for assembling the bearing 38 and the upper and lower support plates 14, 16 between the upper and lower sides And a plurality of rotor blades 35 are equally spaced in accordance with a circumferential direction of the outer side of the drum 25 and are fixed to the outer side of the upper and lower support plates 14 and 16 And is provided so as to rotate by the wind force blowing from the outside.

The description of the rotating structure of the wind power rotator 15 according to the inflow of the wind power includes the steps of fixing the upper and lower rotary plates 18 and 19 to the section of the fixed shaft 24, A drum 25 fixed to the edge of the section between the drum 18 and the drum 19 and a rotor blade 35 formed at an equal interval outside the drum 25.

In addition, the present invention provides a solar power generating plate (44) provided with the upper support plate (14) for enhancing economic efficiency by diversifying the power generating structure in the block (10). And a dome sphere 13 is formed on the upper support plate 14. [

In addition, the dome spherical shape 14 is provided with a solar collector 47 protruding in a protruding manner and provided with an optical oil conduit 45 connected to the solar collector 47. The sunlight passing through the column pipe 28, To the indoor or shaded sound field of the sound source 40.

(Example 2)

The structure for rotating the upper and lower support plates 14 and 16 provided with the wind power rotation device 15 as the essential part of the present invention is a structure that rotates around the column pipe 28 at the central part, The wind force is mostly uneven, so that the wind force is adjusted by the upper and lower enlarged support plates 14 'and 16', but an unbalanced state of the rotating speed is actually formed.

In order to uniformly and uniformly and uniformly rotate the rotational force of the dispersed wind power rotating device 15 'while dispersing the wind power rotating devices 15 constituted around the column pipe 28, Invention.

Accordingly, in order to provide uniform rotation to the wind-driven rotary device 15, it is preferable to arrange the column pipe 28 in a circumferential direction by about 3 to 4 fixed shafts 24, And a fixing shaft (24) fixed between the upper and lower rotary plates (18) and (19) so as to be assembled between upper and lower fixing grooves (41); Fixing the upper and lower rotary plates (18) (19) on upper and lower sides so as to apply upper and lower length sections of the rotor blade (35) to the fixed shaft (24) A plurality of rotor blades 35 'are inclined in the circumferential direction in the outer direction of the drum 25' to fix the cylindrical drum 25 'to the edges of the rotary plates 18 and 19, Is fixed to the edge section of the upper and lower rotary plates (18) and (19), and is provided with a rotating force by wind force.

The rotating force of the wind power rotating device 15 rotating by the bearing ring 38 and the ring gear is easily transmitted to the rotating shaft 20 built in the inner space of the column pipe 28 at the upper and lower sides of the fixed shaft 24 (21 ') and the belt (27).

Accordingly, the wind turbine apparatus 15 is provided with a plurality of rotating devices 15 ', and the wind turbine apparatus 15 is provided by driving the belts 27 between the pulleys 21' Invention.

Separately, the above-described structure for transmitting the rotational force is also useful for the purpose of the present invention. (Figs. 7 to 8)

In addition, the structure for counteracting the above-described upper support plate 14 is configured to protrude upward at the outer side in the circumferential direction so as to reinforce the restraining force against the wind force from the ground, The convex dome sphere 13 fixed to the center portion of the power generating plate 12 is provided with a fixing groove so as to fix the end portion with respect to the rotation shaft 20 so as to reinforce the rotational force by the wind force, It is an invention to provide reinforcement for photovoltaic power.

That is, the rotating device is provided with a generator 49 and an unillustrated capacitor to provide solar power when the wind power is good, and also to provide solar power during the time when the sun is shining. And a control device or the like not shown to provide the driving force by the electric power.

Figure 1 is a partial perspective view of a prior art invention.

2 is a cross-sectional view of the recess of the present invention

Fig. 3 is a sectional view taken along the line A-A in Fig. 1

4 is a partially enlarged cross-sectional view of a recess in the present invention

5 is a sectional view taken along the line B-B in Fig. 4

Figure 6 is a cross-sectional view of the state of action for partial enlargement of the recess in Figure 4;

Figure 7 is a partial perspective view of an embodiment of the recess in Figure 1;

8 is a cross-sectional view taken along the line C-C in Fig. 7

9 is a sectional view taken along the line D-D in Fig. 7

10 is a partial cross-sectional view of an embodiment of a recess in the present invention

FIG. 11 is a partially enlarged perspective view of the used state in FIG.

     Description of the Related Art [0002]

10: Block 12: Solar power generation plate 13: Domed sphere

14: upper support plate 15: wind power rotation device 16: lower support plate

18: upper rotating plate 19: lower rotating plate 20:

23: frame 24: fixed shaft 25: drum 26: motor

27: Belt 28: Pillar pipe 30: Movable groove 31: Induction section

32: connecting ring 34: guiding wall 35: rotor blade 36:

37: control device 38: bearing 40: building 41: fixing groove

45: a mineral oil conduit 47: a house clown 49: a generator 50: an anemometer

51: fixed shaft 52: moving wall 53: piston 54: curved structure

55: rope 56: fixing rod 57: bending-type movable wall 58: ring groove 59: roller

Claims (2)

A column pipe 28 projected to be fixed to the frame 23 in a wind movement section formed in the building 40 or a hill, upper and lower support plates 14 and 16 fixed to the pipe 28, A wind power rotating device 15 provided in a rotating space 17 interlocked to rotate between the upper and lower support plates 14 and 16 and a wind power generating device 15 formed at the edges of the upper and lower support plates 14 and 16, Upper and lower side enlarging supporting plates 14 ', 16' for induction, An induction wall 34 is formed on the upper and lower enlarged supporting plates 14 'and 16' to form an oiling tool 31 and an anemometer 50 and a control unit 37 are provided on the upper and lower supporting plates 14 and 16, respectively. The wind turbine according to claim 1, A movable groove 30 which is assembled to the upper and lower enlarged support plates 14 'and 16' so as to move the upper and lower ends of the guide wall 34 by assembling, The guiding wall 34 includes a moving wall 52 having a bending-like movable wall 57 and a fixed padding 51, Wherein the moving wall is provided with a roller to allow the flow of wind power to the rotating space to be adjusted by forming a roller on the fixed rod so as to be driven by the moving groove. The method according to claim 1, The upper and lower enlarged support plates 14 'and 16' fixed to the edges of the guide wall 34 and the ring rods 16 and 17 fixed to the fixing rods 56 fixed to the upper and lower enlarged support plates 14 'and 16' A piston 53 provided at one side of the guide wall 34 and the piston 53 are connected to the rotary space 17 by driving the induction wall 34 by the anemometer 50 and the control device, The wind power generator is provided to regulate the wind power flowing into the wind turbine.

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