KR20100034497A - Blocks for wind and solar power on the road - Google Patents

Abstract

PURPOSE: A block for generating wind force and solar energy on a road is provided to generate electricity using wind force and to absorb noise by vehicles. CONSTITUTION: A secondary generating plate(33), which is inclined to an outer edge part, is installed between the middle of a secondary support stand(13) and a supporting beam(12). A movement space is formed on the upper plate of the secondary generating plate. Solar power generation boards(31,31') are upwardly inclined toward the center part of a road. The solar power generation board is symmetrically composed in the upper side height of the secondary support stand and the supporting beam. A drain part is formed between fixtures. Rotating blades are form on the blocks.

Description

Blocks for wind and solar power on the road {omitted}

The present invention is an invention for the wind and photovoltaic power block on the road to generate power by using the wind, such as sunlight or monsoon coming down from the road or bridge, and more specifically, according to the longitudinal direction of the road On the wind and solar power blocks in the road, which is configured to induce wind by using the outer surface of the solar heat collecting plate as well as the soundproofing device to prevent noise and snowfall installed while fixing at both edges. Invention.

In general, connecting a predetermined area by a road or a railroad is to pass through not only the city center but also a field or a mountainous region. Since it is constructed while maintaining a predetermined width, it will be said that the area occupied by the room is extensive.

In addition, the construction of a photovoltaic complex or a wind farm requires a large area.

Therefore, the complex provided in each of the above do not apply to each other, such as the need for land required for this, it leads to an excessive installation cost accordingly, it is required to review the economic feasibility.

In addition, the wind moving in the air maintains the wind direction and wind speed is formed. The more powerful forms of wind direction and wind speed are maintained according to the terrain, and most of these areas form a north direction. There are many occurrences of cold.

In addition, in the region where windbreak forest is well formed in coastal subregion, wind direction is induced by the half wind forest to prevent wind sea.

In addition, in the case of roads or railways, when the moving vehicle moves at a high speed, the air flow is shocked, and the durability of the soundproof walls installed for the purpose of noise blocking becomes a problem. It is forming.

According to the present invention, a moving path of a vehicle such as a road and a railroad passes through a mountainous region or a field region according to the terrain.

Most of the weather provided here is sunny, but often cloudy and windy at night or in cold weather.

This is a necessity for the use of sunlight in sunny sunny weather, and also the need for a wind power device for the development of the wind when the weather is cloudy at night or cloudy weather.

In addition, in the cold season, due to the risk of safe driving due to heavy snow, etc., an element of a safety device for a section in which a vehicle moves is required.

In addition, the wind is the wind direction changes with each season, the wind speed also changes in conjunction with the change of the temperature according to the season.

Therefore, the main block of the present invention is an invention in which the slope is maintained in the area passing through the road where the road is already installed, and is easily applied in an area where sunlight is well reflected and a large amount of wind.

In addition, the energy required for the operation of the vehicle is driven while burning energy sources such as gasoline and diesel, which is an expensive burden due to the generation of pollution and the demand for industrial development.

As a result, the demand for new and renewable energy is generated, which is a pollution-free and invention to provide not only a solution of the area for the installation section of the solar power generation plate, but also to provide the role of wind power generation while the wind is blowing.

In general, wind and solar power generation blocks in fields or mountainous areas where roads are built are connected by curb repeatedly along the length of the road, thereby providing ground efficiency and absorbing noise caused by vehicle movement. In the meantime, when the wind blows, the invention provides to reinforce the wind power by the wind induced in the air direction of the solar panel inclined to the outer surface.

In more detail, the vehicle is driven by heavy snow in the cold season according to the season, in order to prevent the risk of slipping, and also in the cold season, to provide safe driving by preventing disturbance of the driver's vision caused by the heat wave. To do so.

In addition, it is intended to supply not only solar power in the mountain area but also to power generation by wind power, and to provide electricity for use in residential and vehicle operation.

In order to achieve the above object, the present invention continuously and repeatedly constructs a support beam protruding while maintaining equal intervals along the length direction in guide lanes fixed to both edges of a road or a bridge, and accordingly, On the road or the bridge is a storage battery and the conduit is installed, the auxiliary support is configured on the edge of the support projecting from the guide rail; In the middle part thereof, a plurality of cross-sections inclined downward to the outer edge are integrally fixed to be formed between the moving spaces in which the inclined solar panels are inclined downward, and inclined to both sides above the support beam. Make up solar panels; The invention is composed of a wind turbine provided with a rotary blade and the generator on the upper side of the pillar provided on the outer periphery thereof.

In addition, to induce the wind blowing to the outer surface of the inclined photovoltaic plate to be configured to reinforce the rotational force for the rotor blades of the wind turbine, which is configured to provide by continuously repeatedly connected as necessary along the longitudinal direction of the road It is a block for wind and solar power generation.

In addition, the wind generator is provided on both sides of the solar power plate, respectively, to effectively reinforce the power generation for changes in the wind direction according to the season.

As described above, the present invention provides a wind and solar power generation block while preventing damage to sound insulation and heavy snow in a long distance section in which a road or a bridge is connected, particularly in a mountain or bridge section, as well as ensuring safe driving. In addition, it provides the base of energy production by providing solar power generation to reinforce the durability of the upper limb power generating device by easily inducing the impact on the air flow generated while improving the practicality by generating renewable energy.

Hereinafter, described in detail with reference to the accompanying drawings of the present invention.

Figure 1 is a perspective view of the main portion of the block provided in the present invention, Figure 2 is a cross-sectional view taken along line AA in Figure 1, Figure 3 is a partial perspective view of the use example 1 for the main portion of the present invention, Figure 4 is a main portion of the present invention The partial perspective view of the use example 2 about.

5 is a perspective view showing an embodiment of the main part of the present invention, Figure 6 is a partial perspective view of an example of the use of the main part in FIG.

7 is a partial perspective view of an embodiment of the main part of the present invention, FIG. 8 is a sectional view taken along the line BB in FIG. 7, FIG. 9 is a sectional view taken along the line CC in FIG. 8, and FIG. It is a perspective view, and FIG. 11 is sectional drawing DD line in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings, in which wind and solar light are provided on a road or a bridge to prevent the risk of heavy snowfall and the like for driving a vehicle while generating power in an area rich in solar and wind power. As an invention for providing a block for power generation,

In the guide lanes 16 formed at both edges in the longitudinal direction of the road 14 or the bridge 15, the protruding support beams 12 are continuously formed repeatedly at predetermined intervals; Comprising each of the auxiliary support (13) protruding from the guide rail to form a predetermined interval in length; On the middle part thereof, the auxiliary power generating plate 33 is fixed to the auxiliary power generating plate 33 downwardly to the outer edge so as to be inclined between the supporting beam 12 and the auxiliary supporting beam 13, The site forms a moving section (18).

Here, the solar light which is inclined upwardly to the central portion of the road 14 while forming a moving space 18 above the auxiliary power plate 33 for fixing the frame 23 by welding or the like on the upper side of the upper moving section 18. The power generation plates 31 and 31 'are formed to form a structure in which the cross sections are symmetrically convex with each other.

In the block of the present invention, the support beams 12 and 13 are formed in a symmetrical configuration, while forming a solar power plate (hereinafter, referred to as a power generation plate) 31 and 31 'at an upper height. It is characterized in that it is provided while forming the discharge space 19 in the interval between the fixing while maintaining the same spacing with a plurality of fixing rods 26 in the longitudinal direction.

In addition, the wind turbine generator 20 is provided with a rotary blade 43 and a generator 45 provided at an upper end of the pillar 36 which protrudes while being fixed around both sides of the power generating block.

The wind direction of the blowing wind is changed according to the season or the topography, so that the wind vane 47 is provided on one side of the photovoltaic panels 31 and 31 ′ to apply accordingly.

The width and length constituting the above-described photovoltaic panels 31, 31 ′ and the auxiliary power generator plate 33 correspond to the size for forming the power generating block, while the lengths are formed at predetermined intervals described above. Provide it.

Therefore, the power generation block of the present invention is an invention that is used continuously connected repeatedly to be provided in accordance with the length to be provided in the road 14 or bridge 15 repeatedly.

In addition, the inclination of the inclined photovoltaic plate 31 (31 ') is provided to provide the rotary blade 43 in accordance with the course of the wind passing by guiding the wind in the air direction while maximizing the solar irradiation power.

The structure fixed to the support beams 12 and 13 by forming the auxiliary power plate 33 connected to the lower side of the photovoltaic panels 31 and 31 ′ is for the condition in which sunlight shines obliquely in the morning or afternoon. While reinforcing power, it is characterized in that it is provided with the effect of reducing damage such as heavy snow.

The photovoltaic panels 31 and 31 ′ provided herein are constructed of iron plates having good durability against the impact of air caused by the movement of the vehicle, and provide a solar power generator integrally formed on the outer surface thereof. .

Thus, when the present invention describes the operation of the above-described content,

While the sun is shining in an area where the road 14, the bridge 15, the railroad, etc. are built in a coastal area or hilly area, the solar power plates 31, 31 'and the auxiliary power generation plate 33 provide power generation. When the wind blows across the road 14 from the one side by the terrain to the menstruation, the rotary blade 43 of the wind turbine 20 installed in the front and rear, which is installed in the center of the road 14, rotates It will provide development as it is.

Here, the wind blowing while passing through the road 14 is induced upward according to the inclination of the photovoltaic panels 31 and 31 ′, leading to the direction of the rotary vanes 43 provided on the rear side of the road 14. In the meantime, the existing unit is an invention that provides power generation with wind reinforced by wind.

Here, the wind flows into the moving sections 18 and 18 ′ formed at the upper and lower sides of the auxiliary power generation plate 33 installed at the front side, and is discharged to the discharge space 19 formed at the upper side of the middle side in the road 14. By exhausting the exhaust gas generated while the vehicle or the like travels on the road 14, it is to provide the durability of the power generation block by the wind power.

In this case, the southeast wind is often blown in the summer season, and the northwest wind is often blown in the winter season. Thus, in order to provide compatibility therewith, to provide a structurally effective power generation block for the round trip lane of the road 14, the above-described discharge It provides a power generation device provided symmetrically with respect to the section 19 and the fixed base 26.

That is, since the above-described wind blows in directions opposite to each other according to the season, this is an invention in which the blowing direction is provided to easily provide power generation using the wind on the other side.

In addition, the present invention is an invention that provides a stable effect against heavy snow in winter as well as reinforcement of the above-described power generation.

In addition, the upper side of the support beam is a invention that provides a supply of electricity to the building or area that is built around the road while installing a generator of electric power used for a heater, such as a heater by configuring a solar power plate to generate solar power. .

In addition, the present invention provides a predetermined installation space (11) not shown in the accompanying drawings below the central separator 10 of the road, and the worker communicating with the installation space 11 on the side of the central separator (10) An entrance 14 is formed, and a storage battery is installed in the installation space 11.

In addition, the upper side of the support beams 12, 13 protruding while maintaining the same distance along the longitudinal direction from the central separator 10, in accordance with the fixing table 26, the power generating plate 31, 31 ' The support beams 12 and 13 are directed in the longitudinal direction of the road so that the support force is balanced on the structural devices of the structure, thereby providing long-term durability by maintaining the balance according to the width of the road 14.

Therefore, the solar panel is installed while covering the upper side of the support beam to produce power in the sun, while providing a role of blocking the noise of the running vehicle.

Example 1

In addition, as an invention for reducing the damage to the expansion and heavy snowfall of the wind power in winter in the mountainous region, such as the hilly area 50, as shown in Figures 4 to 5 attached, the road opened in the hilly area (50) (14) is mostly a region with a relatively steep slope, and passes through the shade of the shade of the shade that occurs mainly in the north, so there are many heavy snow and ice areas in winter. As a result, it is an invention for an embodiment to provide a bilateral symmetrical structure to one side in the power generation block described above.

In the above areas, when the wind blows, most of the upward air flows from the lower region to the upper region along the slope.

Therefore, the present invention is to provide a power generation device for the road 14 opened in the hills 50 described above, the guide formed on one side edge of the road 14, that is, the roadside in the lower direction of the hills 50 In the lane 16, the protruding support beams 12 are formed continuously and repeatedly while maintaining a predetermined interval; Comprising the auxiliary support (13) to form a predetermined interval in length, respectively; In the middle portion thereof, the auxiliary power generating plate 33 is fixed to the auxiliary power generating plate 33 downwardly to the outer edge so as to be inclined between the supporting beam 12 and the auxiliary supporting beam 13, and the upper and lower portions thereof. It forms a moving section (18).

Here, the solar light which is inclined upwardly to the central portion of the road 14 while forming a moving space 18 above the auxiliary power plate 33 for fixing the frame 23 by welding or the like on the upper side of the upper moving section 18. The discharge space 19 is formed in the interval between the fixing of the power generating plate 31 while maintaining the same distance between the longitudinal direction for the block of the present invention formed on the upper edge with a plurality of fixing tables 26. The height of the pillar 36 or the support beam 12 of the wind turbine 20 provided at the other edge of the road 14 so as to be fixed to the fixing rod 17 connected thereto while forming the fixing rod 17. It is provided by fixing it integrally to match the structure that is maintained in the horizontal state.

The wind direction of the blowing wind is changed depending on the season or the terrain, so that the wind vane 47 is provided on one side of the photovoltaic plate 31 so as to apply accordingly, the rotary wing 43 and the generator 45 accordingly. It is configured to rotate.

Wherein the width and length constituting the above-described photovoltaic power generation plate 31 and the auxiliary power generation plate 33 is provided in accordance with the size to form the power generation block, the length is provided at a predetermined interval described above .

Therefore, the power generation block of the present invention is an invention that is used by connecting continuously repeatedly so as to be provided in accordance with the length to be provided in the road 14 opened in the hills 50 continuously and repeatedly.

In addition, the inclination of the inclined photovoltaic plate 31 is provided to provide the rotary blade 43 in accordance with the course of the wind passing by guiding the wind in the air direction while maximizing the solar irradiation power.

Example 2

In addition, the slope provided in the power generation block of the present invention provided on the road or bridge is provided to guide in the direction of the rotor blades 43 of the wind power generator 20 on the surface of the photovoltaic panels 31, 31 '. will be.

Here, the invention is provided to provide a large amount of wind and wind speed to the wind vanes passing through the inclined photovoltaic panels 31 and 31 ′ to the rotor blade 43, which are attached to FIGS. 7 to 9. As shown in, of the photovoltaic plate 31, 31 'configured to be inclined symmetrically to both sides about the discharge space 19 formed in the upper portion of the central separator 10 in the road (14). The invention provides a guide wall (28) and guide groove (24) formed on the outer surface at equal intervals a plurality of the entire width in the oblique direction.

Therefore, the wind blowing on the surface of the inclined photovoltaic plate 31 is intensively guided to the rotary blade 43 of the wind turbine 20 established by the role of the guide wall 28 and the guide groove 24. Since it is provided so that, according to the invention is to provide a reinforcement to the power generation by the reinforcement of the rotational force of the rotary wing 43.

Example 3

In addition, by providing a reinforcing structure for the induction wall 28 and the induction groove 24 described above, it is guided by the photovoltaic plates 31 and 31 'to the rotary blade 43 of the wind power generator 20 As an invention for providing a structure reinforced to face, as shown in the accompanying Figures 10 to 11, the wind guidance guide wall 28 formed on the upper surface of the photovoltaic plate 31 (31 '). And an induction section 22 having a reverse trumpet shape while maintaining a predetermined distance to the lower side of the structure forming the induction groove 24 and the wind induction wall 28 and the induction groove 24. In addition to the wind, the wind direction is provided so as to provide a large amount to be supplied in the direction of the rotary blade, it is an invention to provide to reinforce the power generation by reinforcing the rotational force for the rotary blade 43 which is the purpose of the present invention.

Here, the structure of the induction section 22 formed of the inverted trumpet type described above allows the inlet section of the wind to be gradually reduced in the section of the enlarged structure to reinforce the ejection force for the wind.

In addition, in modern society, due to the development of industrial society, due to the increase of moving vehicles, the hills of the mountainous areas are developed for the expansion of lanes as well as lanes, or because of the increase in the length of the opening of bridges. It is also an invention in which the power generation apparatus of the present invention is provided even when only a part of an important lane is installed and used according to the need of development conditions for renewable energy due to expensive energy demand.

1 is a perspective view of main parts of a block provided in the present invention;

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

Figure 3 is a partial perspective view of use example 1 of the main part of the present invention

4 is a partial perspective view of use example 2 of the main part of the present invention;

5 is a perspective view showing an embodiment of the main part of the present invention;

6 is a partial perspective view of an example of use of the main part in FIG.

7 is a partial perspective view of an embodiment of the main portion of the invention.

8 is a cross-sectional view taken along the line B-B in FIG.

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

10 is a partial perspective view of an embodiment of the main portion in FIG.

FIG. 11 is a cross-sectional view taken along the line D-D in FIG. 10.

<Code Description of Main Parts of Drawing>

10: central separator 11: installation space 12: support beam 13: auxiliary support beam

14 road 15 bridge 16 guide lane 17 fixed rod

18: moving space 19: discharge space 23: frame 24: guide groove

26: fixed base 28: induction wall 31, 31 'photovoltaic plate

33: auxiliary power generation plate 36: pillar 42: support pillar

43: rotary blade 45: power generation device 47: wind vane 50: hill

Claims (4)

In order to provide blocks for wind and photovoltaic power generation on roads or bridges, in guide lanes 16 formed at both edges along the longitudinal direction, the protruding support beams 12 are continuously and repeatedly maintained at predetermined intervals. To form; In the road 14, which constitutes each of the auxiliary support 13 protruding from the guide rail forming the predetermined interval in length, In the middle portion of the support beam 12 and the auxiliary support 13 protrudes, the auxiliary power generating plate 33 downwardly toward the outer edge is inclined between the support beam 12 and the auxiliary support beam 13. Auxiliary power generation plate 33 is fixed to the furnace, but the upper and lower portions thereof to form a moving section 18, Solar light inclined upwardly to the central portion of the road 14 while forming a moving space 18 above the auxiliary power plate 33 for fixing the frame 23 by welding or the like on the upper side of the upper moving section 18. By forming the power generation plates 31 and 31 ', the cross sections are symmetrically convex to each other, At the height of the support beams 12 and 13, the solar power plates 31 and 31 'are symmetrically configured to be fixed while maintaining equal intervals between the plurality of fixing tables 26 in the longitudinal direction. In the space between the discharge space 19 is formed, Wind path passing through the wind generator 20 provided with the rotary blade 43 and the power generation device 45 is provided at the upper end of the pillar 36 which is fixed and protruded around both sides of the power generating block. It is provided with a power generation block to form a rotary wing 43; Block for wind and solar power generation on the road, characterized in that the power generation block is configured by connecting repeatedly. The method of claim 1, The wind turbine generator 20 having an upper edge of the photovoltaic panel 31 is formed in the discharge space 19 in the interval between the fixing rod 26, and the fixing rod 17 connected to the other side edge is provided. Blocks for wind and solar power generation on the road, characterized in that configured to be integrally fixed to the pillar (36) or support beam (12). The method according to claim 1 or 2, Blocks for wind power and photovoltaic power generation on the road, characterized in that provided with a guide wall 28 and the guide groove 24 in the inclined direction on the outer surface of the photovoltaic plate (31) (31 '). The method of claim 1, Blocks for wind and photovoltaic power generation on the road, characterized in that the induction section 22 formed on the lower side of the solar panel (31) (31 ') consisting of inverse trumpet shape to provide.

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