KR20120120875A - Induction wind turbines in facilities - Google Patents

Abstract

PURPOSE: A wind power generation apparatus for a wind guide structure in facilities is provided to block rotational noise generated from a propeller as an inlet connected to a inflow block is formed toward the wind direction. CONSTITUTION: A wind power generation apparatus for a wind guide structure in facilities comprises an inflow section, a jetting block(63), a guide wall(52), an auxiliary gear(57), a rotary rod(49), and a power generator. The inflow section is formed as a housing(50). An inlet is formed on the outside of the guide wall and the jetting block. The rotary power is delivered to the power generator while the auxiliary gear and rotary rod are installed inside a rotary blade.

Description

Wind-guided structural wind generators in facilities

The present invention relates to a wind turbine for wind-guided structures in a facility, and more specifically, to blow in a rooftop area of a facility such as an aerial section or a residential building of a road installed on a roadside or a riverside in an urban area that is recognized as a section where wind is blown. The present invention relates to an invention provided to facilitate solar power as well as wind power.

In general, a rotor blade rotated by wind power rotates at a slower speed than the wind speed caused by the original wind due to friction or resistance caused by the structure of the generator itself.

In order to reinforce the rotational force of the rotary vane, the support pillars are projected at a height above the air. In order to provide a large rotary vane, the rotary vane is mounted on the sea or in the valley.

Most of the wind turbine's rotational power is generated by rotating the rotor blades by the wind's movement force, so it is possible only in the region using mountainous magnetic or coastal areas where wind is relatively abundant. It is becoming.

This is because most of the wind blowing in the air moves mainly while maintaining the horizontal direction, and also because the sunlight is reflected from the sun in the air, it moves downwardly inclined.

Therefore, the present invention is to provide an effective wind power by forming an aerial section formed on the roof of a building, etc. in order to take advantage of the wind power moving horizontally.

In addition, the present invention provides an effective space by providing a wind power generator in a space formed by protruding and fixing a frame such as steel frame at a predetermined height from a slab that is a roof of a building.

This is because the rotor blade assembled around the support pillar is rotated by the wind, thereby providing the effect that the surrounding air is moved in the opposite direction by the operation of the wind turbine assembled to the rotor blade, the noise caused by the rotation By the occurrence of, will cause noise pollution to the surroundings.

In addition, in order to induce the maximum rotational effect on the wind is provided with a generator as high as possible to support the pillar, the propeller is assembled in accordance with the generator is provided in the center of the support pillar most of the structure protrudes in the outward direction By providing a propeller of the situation, the effect on power generation is insignificant compared to the excessive requirement of the area.

Therefore, the present invention is provided with a wind guide on the outer edge of the propeller as provided in the present invention 5430, 5431 filed in 2009, by increasing the maximum rotational speed by using the wind inflow block for the propeller. It is an invention configured to reinforce the power generation.

In addition, as the rotor blades rotate in the horizontal blowing process, a section for the reverse run for one section, that is, a section for the rotation interval of the deceleration section, is provided to face the injection port in the windy direction to reinforce the rotational force on the rotor blades. For sake.

The present invention is a wind power blowing in the air space that forms a supporting steel on the roof of a facility such as a building built on the slope of the mountain slope or downtown, while blowing a lot of wind power by blowing the resistance portion from the rotary wing, An invention that provides for the development of the combined use,

This is to reinforce the power of development in the area where the sun shines while the wind blows a lot in the residential spaces and the idle spaces and the inclined areas of the urban area.

In addition, to reinforce the rotational force for the rotational structure of the wind turbine, to provide to the reinforcement so as to intensively blow the wind power for the reduced area (b) in the propeller.

This is to improve the power generation by blocking the rotational noise for the wind is provided to face the direction of the wind blowing the inlet connected to the inlet block is fixed according to the rotating propeller.

A cylindrical rotor blade 45 and a generator 77 are respectively provided in the rotary space 62 formed on the outer surface of the support pillar 48 so as to rotate by wind power, and the circumference is formed on the upper portion of the rotor blade 45. It is provided with an inlet section (65) of the type, and protrudes in a curved state at a plurality of induction pipes (49) in the inlet section (65), while at the end forming the inlet (46) fixed ring By coupling to 56, it is provided to face in the direction of blowing wind, such as a direction guide key 44 fixed to the support pillar 48,

One side of the inlet section (65) forms a blow block (63) provided with a discharge port (54) so that the wind is ejected in accordance with one side section of the rotary blade (45), in accordance with the other section of the rotary blade (45) In the wind power generator having the inlet 66 and the outlet 67 of the wind power by forming the guide wall 52,

The inlet section 65 is formed as a housing 50, and the inlet port 46 is provided on the outside of the ejection block 63 section and the guide wall 52 section in each side section of the housing 50. By providing an auxiliary gear 57 and a rotating rod 49 in the inner section of the rotary blade 45, the invention provides to provide a rotational force to the generator 77.

In addition, a second inlet 46 ′ is provided in the section between the inlets 46 respectively formed at both side sections of the housing 50 such that wind power flows into the induction space 53 of the housing 50.

The inlet 46 is formed to extend the inlet 46 "outwardly, protruding the direction guide band 51 in the rear section of the housing 50,

The invention is provided while fixing between the guide hole 46 is maintained at both sides with a fixed ring (56).

In addition, a space of the interlayer 82 provided as a protrusion from the rooftop 81 of the road 90 provided on the ground or the building 86 to the frame 88 and the uppermost rooftop 81 ′ are provided. In the space of 81, the upper end and the lower generator 77 of the support pillar 48 are fixed to the bushing 76 and the bearing 59, respectively, and the section of the support pillar 48 has a wind power generator ( 100 is provided, and the invention is provided by providing a solar panel 80 in the uppermost roof 81 'section.

In addition, a separate floor for forming the interlayer 82, 82 ′, 82 ″ of the multi-layered floor surface 85 having the frame 88 and the moving space 94 of the vehicle on the road 90. A surface 85 and a top roof 81 'are provided, and the wind power generator 100 is coupled to the support pillar 48 in a space between the layers 82, 82' and 82 "of the multilayer structure. It is invention provided and provided.

In addition, the support pillar 48 is provided with a rotary shaft 93, the rotary shaft 93 is connected to the rotary twist 69 section, the wind power generator 100 provided in the interlayer 82 It is provided with a rotating space 62 in the section of the rotary shaft 93 to fix the rotor blades 45 to the rotary shaft 93, a plurality of inlets 46 and the direction induction key provided for each floor ( By introducing a larger amount of wind power by means of 44, a plurality of rotor blades 45 are configured to provide rotational force reinforcement for the axis of rotation 93 at the same time.

The present invention is a device for inducing wind blowing simultaneously at the outer edge of the propeller that rotates around the support pillar for the wind power generator to generate power using the wind power of the wind, the rotational force of the wind turbine to rotate accordingly Increasing the development of strong wind areas such as rooftops, coastal areas, riversides, etc., to solve the difficulties of installation in coastal areas or mountain valleys, etc., thereby inducing an increase in the rotational force of the rotating propeller. It is a generator that provides to contribute to economic reinforcement.

In order to achieve the above object, the present invention provides a power generation by rotating a wind power generator by using a rotational force of a rotary blade that rotates due to windy wind, and will be described in detail with reference to the accompanying drawings. 1 is a partial perspective view of a main part of a conventionally provided wind turbine, FIG. 2 is a sectional view taken along line AA in FIG. 1, FIG. 3 is a perspective view of a main part of the present invention, and FIG. 4 is a sectional view taken along line BB in FIG. 5 is a cross-sectional view taken along line CC in FIG. 3, FIG. 6 is a cross-sectional view taken along line DD in FIG. 3, and FIG. 7 is a cross-sectional view of an embodiment of the main part in FIG. 5.

8 is an enlarged perspective view of an embodiment of the main part of the present invention, Figure 9 is a partial perspective view of an application state to the main part of the present invention, Figure 10 is a partial perspective view of another embodiment of the main part in Figure 9, Figure 11 9 is a partial perspective view of another embodiment of the main part in FIG. 9, and FIG. 12 is a sectional view taken along line EE of FIG. 10.

Therefore, the invention provided to achieve the above object, when described in detail an embodiment for the construction site according to the accompanying drawings,

As an invention for providing increased wind power in the windy strong wind state, as shown in Figures 1 to 2, to support the rotation by the wind moving in the air while projecting to the ground while fixed in the ground, support pillar Cylindrical rotor blades 45 to be rotated by wind power in the rotary space 62 formed on the outer surface of the 48, and mainly in the lower section so that the rotational force of the rotor blades 45 is transmitted to the inner tube of the rotor blades 45. It is provided with a gear (59 ') to match, the auxiliary gear 57 and the generator 77 is fixed so as to be connected to the rotary rod 49 is driven with the gear (59'), respectively.

Description of the rotary blade 45 described above, the inclined wall 43 and the rotary groove 42 alternately with each other while maintaining equal intervals in the outer section of the cylindrical drum to be fitted to the inner tube of the rotary blade (45). By being provided, the rotation is made by the driving force of the wind flowed from the inlet (66).

In addition, by assembling the main bearing 59 in the section in which the support pillar 48 and the rotary blade 45 are assembled, the rotary blade 45 fixed to the support pillar 48 by assembly generates a rotational force by wind power. Give it.

In addition, a cylindrical inlet section 65 is provided on the upper portion of the rotor blade 45 so as to reinforce the rotational force at the same time as the inlet sum of the wind blowing around the outer blade, that is, the rotor blade 45 described above, In the inlet section 65, but a plurality of induction pipes (49) protruding to the outer space around the space in a curved state at equal intervals, by coupling to the fixing ring (56) while forming an induction port 46 at the end It is provided to face in the direction of blowing wind, such as a direction induction key 44 fixed to the support pillar (48). Here, in order to fix the guide hole 46 at equal intervals while maintaining the wind power in the blowing direction, the section between the guide hole 46 is fixed to the fixing ring 56 with each other in the long term. To provide a reinforced structure.

Here, in order to provide the wind power introduced from each of the induction port 46 for the reinforcement of rotational force, one side of the inlet section 65, a plurality of transport so that the wind is ejected in accordance with one side section of the rotor blade 45 A jet block 63 having an outlet port 54 is formed between the walls 58, and the guide wall 52 is formed in accordance with the other section of the rotor blade 45 to form the inlet 66 and the outlet of the wind power. Provided is a wind generator (67) is provided.

In addition, in the section in which the rotor blades 45 rotate, the section that rotates in the opposite direction of blowing wind, that is, the wind that is ejected from the resistance section (a) and blows the wind blowing into the resistance section (a) By inducing the inlet 46 adjacent to the curved wall that forms the ejection block 63, the consequent provision of rotational force reinforcement in the resistance section (a) is provided.

Wherein the provision for the direction guide 44 fixedly provided on the upper side of the support pillar 48 is provided to be easily adjusted by rotation in accordance with the change in the direction of the wind blowing, in the present invention the direction guide ( By the rotation of 44 provides the rotation of the wind power generator 100 which will be described later the same.

As an invention for providing a wind power generator 100 for more enhanced power generation by introducing more wind power into the structure for the inlet section 65 and the induction port 46 which is always described, the accompanying Figure 3 8 to 8,

As an invention for explaining an embodiment to enlarge the moving space of the wind power by expanding the inner space of the inlet section 65, and also to enlarge the inlet section of the induction port 46, the inlet section 65 is formed as a housing 50, and protrudes by extending in the lower section so as to be the same as the outer sections of the ejection block 63 section and the guide wall 52 section in both sections of the housing 50, respectively. Inlet 46 is provided.

In addition, by providing an auxiliary gear 57 and the rotating rod 49 in the inner section of the rotary blade 45, the invention is provided to provide a rotational force to the generator 77.

Therefore, by blowing the wind induced in the section that rotates in the opposite direction of the wind blowing in the rotor blades 45, that is, the resistance section (a), provides reinforcement of the rotational force.

Here, a description of one embodiment for providing more wind is introduced into the induction space 53 of the housing 50 described above,

In addition, a second inlet 46 ′ is provided in the section between the inlets 46 respectively formed at both side sections of the housing 50 such that wind power flows into the induction space 53 of the housing 50.

The inlet 46 is formed to form an inlet 46 "enlarged in the outward direction,

By protruding the direction induction zone 51 in the rear section of the housing 50, the enlarged inlet 46 "is directed in the direction of blowing wind, thereby providing a more reinforced power generation.

The invention is provided while fixing between the guide hole 46 is maintained at both sides with a fixed ring (56).

The combination of the support column 48 and the housing 50 and the rotor blade 45 described above can be adjusted by connecting a bearing and support ring not shown and a control device for driving by a motor to each other. It is preferable that the control device is provided with a known control device so as to be easily used.

Example 1

Conventionally, in order to reinforce the rotational force against the wind is provided with a huge support column in a large area of the coastal area or the sea, by providing a rotary wing according to this to reinforce the competitiveness for wind power generation.

However, the configuration in the wind power generator 100 provided in the present invention, by inducing the condensation of the wind blowing in a horizontal state to the maximum as possible to provide a jet to the rotor blades 45 formed in a predetermined size. Will be.

In particular, one side of the rotary blade 45 that rotates in the direction of blowing wind (a) is the invention to provide to intensively eject the induced wind.

Therefore, in the present invention, as shown in the accompanying FIG. 10, to provide economic wind power by applying a section in which reinforced wind is blown by induction of wind power on the terrain in buildings, riversides or roadsides in urban areas.

Therefore, in order to equip the wide section of the road 90 provided on the ground or the rooftop 81 of the building 86 with the wind power generator 100 provided in the present invention, the upper section of the building 86 is provided. In order to maintain a predetermined distance from the rooftop 81, a space of the interlayer 82 provided as a protrusion with a plurality of frames 88 and a top rooftop 81 'are provided, but the space of the interlayer 81 is provided. The upper end of the support pillar 48 is fixed to the bushing 76 and the bearing 59, and the lower generator 77 is fixed to the frame.

Accordingly, the wind turbine generator 100 is provided in the section of the support pillar 48, and the solar panel 80 is provided in the uppermost rooftop 81 ′ section.

It is also an invention for providing more uniformly the generated power of the power while being more reinforced as an effective use for the wind power generator 100 which is the main part of the present invention, as shown in FIG.

As an invention for providing an easy and effective development, mainly in a mountain slope area or the like where there is a lot of wind and snow damage frequently occurs in the winter, especially in the area where the road 90 is opened, both side edges of the road 90 And protruding the main pillars 89 formed at a plurality of predetermined intervals while maintaining predetermined intervals in the section of the median separator 91 to move the moving space 94 of the moving vehicle traveling on the road 90. To form a ceiling section to be provided.

In addition, a frame 88 protruding from the main pillar 89 at a predetermined height while passing through the ceiling section of the installed moving space 94 is provided, and the predetermined height section protrudes continuously. The ceiling section is provided on the bottom surface 85 so as to provide the interlayers 82, 82 ', 82 "

In addition, the bottom surface 85 is provided with a separate bottom surface 85 and a top roof 81 'for forming interlayers 82, 82' and 82 "of a multilayer structure. In the space between the floors 82, 82 ', and 82 ", the invention provides the wind power generator 100 with the support pillar 48 as a coupling.

Here, in the section of the uppermost roof 81 'where the upper side walls of the frames 88 protruding from the main pillars 89 described above are connected to each other, solar power is generated so as to perform power generation with sunlight shining from the sun. It is preferable to provide the power generation plate 80 integrally.

Here, the provision for the wind power generator 100 to be installed in the inter-layer space described above is preferably provided by installing on an appropriate scale according to the amount of air blown according to the region and the structure between the layers to be installed.

In addition, a rotary shaft 93 is assembled to penetrate the section of the bottom surface 85 formed between the interlayers 82, 82 'and 82 "of the multilayer structure described above, wherein the respective interlayers In the space of 82, 82 'and 82 ", the wind power generator 100 is combined to rotate in accordance with the rotation shaft 93, and the bottom surface of the lowermost floor is provided with a generator 77 provided. It is provided by the invention.

Wherein the support pillar 48 described above is provided with a rotating shaft 93, each of the interlayer section is integrally connected.

Therefore, in the wind power generator 100 provided between each of the floors 82, 82 ′, 82 ″ described above, the wind power generator 100 is oriented so that the direction of the inlet 46 is directed in the direction of blowing wind. In addition, the direction guide key 44 is preferably provided.

In addition, the rotational force provided in each of the wind turbines 100 is concentrated to the rotating shaft 93 connecting through the interlayer 82, 82 ', 82 "section through to provide a rotational force is reinforced Insert a bottom beam 85 through the bottom beam 85 to distinguish between the respective layers, but penetrate the insertion hole in the section of the bottom surface 85, and a separate bushing 76 in the insertion hole section. Insertion is provided to make the rotational force flexible, and in order to transmit the rotational force while connecting the respective interlayer sections, the bearing 85 and the rotary pin 69 are attached to the rotation shaft 93 passing through the respective bottom surface 85 sections. By assembling with each other, it is an invention for solving the stress with respect to rotation in the high layer steel of the installation installed in the section of the air.

Therefore, the rotary shaft 93 is connected to the rotary twist 69 section, and the wind turbine 100 provided in each of the floors 82 is provided with the rotation space 62 in the section of the rotary shaft 93. It is formed, it is fixed to the rotary blades 45 is assembled to the rotation axis 93 in the center section to facilitate the rotation in the rotation space (62). By introducing a larger amount of wind power by the plurality of inlets 46 and the direction guide key 44 provided for each floor, the plurality of rotor blades 45 is configured to provide a rotational force reinforcement for the rotation axis 93 at the same time It is an invention to become.

The rotation of the rotation shaft 93 described above is to transmit the process to rotate the direction induction key 44 provided in the wind power generator 100 to the wind blowing direction to the wind power generator 100. To equip it.

In addition, the rotary rod 45 installed in the rotary space 62 is a rotary rod 49 to assemble the auxiliary gear 57 connected to the inner section formed so as to penetrate the longitudinal section of the rotary shaft 93 by the strong wind. By transmitting the rotational force to the generator (77), the rotational force connected in the multilayer structure is configured to be provided with more reinforced power generation.

The rotational force generated by the wind power (strong wind) is installed so that the rotational force is connected to the section in which the rotor blades 45 are assembled, but the rotational force is connected to the generator, so that the more powerful power generation is reinforced.

1 is a partial perspective view of the main portion of a wind turbine provided in the prior art

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

Figure 3 is a perspective view of the main part of the present invention

4 is a sectional view taken along the line B-B in Fig. 3

5 is a cross-sectional view taken along the line C-C in FIG.

6 is a cross-sectional view taken along the line D-D in FIG.

7 is a cross-sectional view of the embodiment of the main part in FIG.

8 is an enlarged perspective view of an embodiment of the main portion of the present invention;

9 is a partial perspective view of an application state for the main portion of the present invention;

10 is a partial perspective view of another embodiment of the main part in FIG.

11 is a partial perspective view of another embodiment of the main portion in FIG.

12 is a cross-sectional view taken along the line E-E in FIG.

<Code Description of Main Parts of Drawing>

45: rotor blade 46: inlet 47: direction guide key 48: support pillar

DESCRIPTION OF SYMBOLS 50 Housing 51 Directional guide zone 54 Jetting outlet 55 Support wall

57: auxiliary gear 56: fixing ring 59: bearing 62: rotating space

64: rotation axis 65: inlet section 69: rotary edge

77: Generator 81: Rooftop 82: Floor 86: Building

88: frame 89: main pillar 90: road 100: wind power generator

Claims (5)

A cylindrical rotor blade 45 and a generator 77 are respectively provided in the rotary space 62 formed on the outer surface of the support pillar 48 so as to rotate by wind power, and the circumference is formed on the upper portion of the rotor blade 45. It is provided with an inlet section (65) of the type, and the inlet section (65) protrudes in a curved state at a plurality of induction pipes 49 at regular intervals, but at the end to form a guide ring 46 while fixing ring ( 56, provided to face in the direction of blowing wind, such as a direction guide key 44 fixed to the support pillar 48, One side of the inlet section (65) forms a blow block (63) provided with a discharge port (54) so that the wind is ejected in accordance with one side section of the rotary blade (45), in accordance with the other section of the rotary blade (45) In the wind power generator having the inlet 66 and the outlet 67 of the wind power by forming the guide wall 52, The inlet section 65 is formed as a housing 50, and the inlet port 46 is provided on the outside of the ejection block 63 section and the guide wall 52 section in each side section of the housing 50. And, having an auxiliary gear (57) and a rotating rod (49) in the inner section of the rotary blades (45), the wind turbine for induction structure in a facility provided to provide a rotational force to be transmitted to the generator (77). The method of claim 1, A second inlet 46 ′ is provided in a section between the inlets 46 respectively formed in both sections of the housing 50 so that wind power flows into the induction space 53 of the housing 50. The inlet 46 is formed to form an inlet 46 "enlarged in the outward direction, Protruding the direction guide band 51 in the rear section of the housing 50, Wind turbines for induction structural wind power generators in the facility provided while fixing the gap between the induction port 46 is maintained at both sides with a fixed ring (56). The upper floor roof 81 'and the space of the interlayer 82 provided as a protrusion from the roof 90 of the road 90 provided on the ground or the building 86 to the frame 88 are provided. In the space of the 81, the upper end and the lower generator 77 of the support pillar 48 is fixed to the bushing 76 and the bearing 59, respectively, in the section of the support pillar 48, the wind power generator 100 ) And the wind roof structure in the facility provided by having a solar panel 80 in the top roof (81 ') section. The method of claim 3, In the road 90, the bottom surface 85 having the frame 88 having the moving space 94 of the vehicle is a separate bottom surface for forming the interlayers 82, 82 ′, 82 ″ of the multilayer structure. (85) and the top roof (81 '), the wind power generator 100 is provided in the support pillar 48 and coupled to the space of the interlayer (82, 82', 82 ") of the multi-layer structure. Induction wind turbines in facilities provided by the installation. 5. The method of claim 4, The support pillar 48 is provided as a rotary shaft 93, the rotary shaft 93 is connected to the rotary twist 69 section, for each of the wind power generator 100 provided in the interlayer 82 It is provided that the rotation space 62 is formed in the section of the rotary shaft 93, the rotor blades 45 are fixed to the rotary shaft 93, a plurality of inlets 46 and the direction guide key 44 provided for each floor between Wind-induced rescue wind turbines in a facility, whereby a plurality of rotor blades (45) are configured to simultaneously provide rotational force reinforcement for the axis of rotation (93) by introducing more wind power.

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