KR101107280B1 - Wind power generator of median strip for road - Google Patents

Abstract

The present invention relates to a wind power generator of a road center separator, which is installed in a center separator of a general road or a highway so that natural induced wind generated by continuous high-speed driving of a vehicle is utilized as a rotational power source of a blade generating electric energy. Installed on the central separator, and provided to guide the interior of the wind generated by the movement of the natural wind and the vehicle, and the blade is rotated by the wind introduced into the exterior, and to form the center of rotation of the blade It is provided with a rotating shaft which is provided vertically, and a power generating device for generating electrical energy by the amount of rotation transmitted connected to the rotating shaft, the appearance is introduced through the inlet by forming inlets on each side in the direction in which the vehicle proceeds Inside which the cross section becomes narrow sequentially It is characterized in that it is configured to rotate the blade is strongly sprayed through the discharge port while rotating in the spiral form along the pipeline, so that the wind speed is increased during the rotational movement of the induced induction wind to improve the power generation efficiency through wind energy Try to get the effect.

Road, Median, Wind Power, Generator, Spiral, Flywheel, Wind, Induction Wind

Description

Wind power generator of median strip for roads

The present invention relates to a wind power generator, and more particularly, the center of the road is installed on the central separator of a general road or a highway so that the natural induced wind generated by continuous high-speed driving of the vehicle is utilized as the rotational power source of the blade to generate electrical energy. It relates to a wind turbine of a separator.

In general, a divider having a constant height is provided at the center of a road on which a vehicle travels to induce safe driving of a vehicle traveling at high speed for the purpose of distinguishing up and down lanes, preventing glare caused by lights, and preventing various traffic accidents.

At this time, the natural guided wind according to the movement of the surrounding air is transmitted to the central separator of the road due to the high-speed vehicles that run continuously, and conventional devices were not provided to utilize the guided wind.

In recent years, while efforts to secure alternative energy resources such as wind, solar, and hydroelectric power have been required prior to the present invention, the registered patent No. 10-0801466 in the central separator installed in the center of the road, predetermined in the central separator A power generating device installed at a depth of the; A rotating shaft that is spoken at a predetermined height with the rotor of the power generator; A rotating plate which is partitioned at predetermined intervals on the side of the rotating shaft and fixedly installed integrally; A protective member surrounding the rotating plate and having a wind inlet formed at both sides in a direction in which the vehicle proceeds, and a wind outlet formed at an upper side thereof; The wind generator is installed on the central separator of the road, characterized in that consisting of; wind guide plate is formed to be drawn out in the direction in which the vehicle sprints outside the wind inlet of the protection member.

Through the above configuration, the power generation structure can be generated by using the wind power generated by the driving of the vehicle, but the wind flowing through the inlet wind inlet flows the wind induced by the driving of the vehicle without any increase in speed. By rotating the rotary shaft of the generator equipped with a rotary tube, when the irregularly introduced wind power is weak, there is a limit of the configuration of the power generation output is lowered efficiency is lowered.

Therefore, the present invention was devised to solve the above problems, while utilizing the induced wind generated by the movement of the vehicle and delivered to the central separator of the road as a power source for generating energy, induced wind introduced to rotate the blade It is an object of the present invention to provide a wind power generator in the middle of the road to improve the power output as the wind speed is increased through a narrow discharge port is formed.

In order to achieve the above object, the present invention is installed on the central separator of the road, the exterior is provided to guide the inside and introduces the wind generated by the movement of the natural wind and the vehicle, and by the wind introduced into the exterior Is provided with a rotating blade, a rotating shaft that is provided vertically to form the center of rotation of the blade, and a power generating device for generating electrical energy by the amount of rotation transmitted and connected to the rotating shaft,
The exterior is formed by the inlet on each side in the direction of the vehicle proceeds so that the wind flowing through the inlet is rotated in a spiral form along the inner conduit in which the cross-sectional area is sequentially narrowed while being strongly sprayed through the discharge port to rotate the blade It is configured to have a spiral shape, and one side end of the rotating shaft is configured to include a flywheel filled with a predetermined amount of fluid, the upper and lower portions of the appearance of the wind flowing through the inlet port to rotate the discharge port side In order to maintain the airtight state, the central portion in which the blade is installed is open, characterized in that the upper cap and the lower cap is installed to seal the upper and lower portions of the spiral shape appearance.

Through the present invention configured as described above to drive the power generation device using a strong wind generated by the movement of the vehicle, at the same time the induction wind of the vehicle with a different direction of movement in the central separator of the road by introducing the blade in a certain direction By rotating to secure the wind continuously, and to increase the wind speed during the rotational movement of the induced induction wind to obtain the effect of improving the power generation efficiency through the wind energy.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view schematically showing the configuration of a wind power generator installed in the central separator of the road according to a preferred embodiment of the present invention.

As shown in the figure, the central separator of the general type installs a strut 10 of a predetermined length on the road surface, and secures and attaches the guard rail 20 to both sides of the strut 10 so as to distinguish the up and down lanes, and the strut ( 10) and a predetermined portion of the ground boundary is installed to induce safe driving of the vehicle, including a reinforcement material 30 of concrete material in order to reduce the damage of the strut 10 due to the collision of the vehicle.

In order to produce electric energy by using wind (guided wind) generated by the movement of a vehicle traveling at high speed to both sides in the center separator of the road installed as a power source, the exterior is provided to guide the wind inwards ( 100, the blade 200 that is rotated by the wind introduced into the exterior 100, the rotating shaft 300 provided vertically to form a rotation center of the blade 200, and the rotating shaft ( The wind turbine is provided as a power generator 400 for generating energy by the amount of rotation transmitted in connection with 300 is positioned above the central separator strut 10.

2 is a perspective view illustrating the exterior 100 and the internal configuration, and FIG. 3 is a plan view illustrating the internal coupling structure of the exterior 100.

The exterior 100 is provided in a tubular shape having a predetermined length in the vertical direction, the inlet opening is completely cut in both longitudinal directions on both sides so as to induce the inflow of wind in the direction in which the vehicle proceeds (100) 101).

At this time, the appearance 100 forms a conduit so that the wind flowing through the inlet 101 is rotated in a spiral form, the wind speed of the wind is increased by forming a narrower diameter width of the conduit in sequence, It is to be strongly injected through the discharge port 102 is narrowly formed to the inner end.

Inside the exterior 100, a blade 200 that is rotated by the wind introduced on the basis of the central rotation axis 300 is formed vertically along the longitudinal direction of the exterior 100, the embodiment of the present invention shown In the blade 200 is provided with four circularly arranged at the same interval around the rotation axis 300, and to have a concave bent form to increase the drag and rotational force of the wind injected through the discharge port (102). .

In addition, the upper and lower portions of the exterior 100 coupled to the blade 200 as described above, respectively, to prevent the air from moving outside in the rotation along the narrowed pipe inflow through the inlet 101 to keep the airtight And fixed to the upper cap 110 and the lower cap 120 to induce a smooth movement, the upper and lower portions of the blade 100 provided in the inner center of the exterior 100 to form a shape that penetrates without clogging open Free passage of wind through the upper and lower parts.

Looking at the process of generating energy by receiving wind power through the exterior 100 and the components configured as described above, the vehicle is moved to both sides of the exterior 100 installed at a predetermined height on the central separator strut 10 of the road. Each inlet 101 is formed to face the coming direction so that the wind (induction wind) generated by the movement of the continuously running vehicle is naturally introduced.

The wind flowing through the inlet 101 as a power source is subjected to a wind power generation process to generate energy while rotating the blade 200 located inside the exterior (100). In general, in order to construct a high-efficiency wind power generator, the wind power for rotating the blade 200 must be secured continuously.

In addition, the wind energy E is derived by the formula of E = (1/2) × ρ × A × Ｖ ³ (ρ: air density, A: cross-sectional area, Ｖ: wind speed).

The air density varies depending on the air pressure at its place or the amount of water in the air, which is generally considered to be constant at 1.2 kg / m ³ , which is the air density on a flat surface, and the cross-sectional area is a rotor, Proportional to the area of the blade.

As derived from the above equation, it can be seen that the wind energy (E) is the most important consideration under the precondition that the wind power is continuously supplied in the wind turbine of high efficiency in proportion to the cube of the wind speed.

Therefore, in the present invention, in order to construct a high-efficiency wind power generator, induction winds from vehicles having different moving directions based on the central separator can be simultaneously introduced from both sides, and the winds that are rotated and moved along the path are in communication with the inlet 101. Each discharge port 102 is sprayed to rotate the blades 200 in the same direction so as to ensure a maximum supply amount of wind for rotating the blades 200.

In addition, the movement path of the wind penetrating through the inlet 101 to the inner discharge port 102 is rotated in a spiral form, the cross-sectional area of the conduit to form a form that is sequentially smaller in the narrow discharge port 102 side The wind speed increases considerably compared with the inflow, so that a strong jet is formed.

Bernoulli's theorem and dynamic energy conservation law on the fluid flow that the total energy possessed by the fluid in the pipe is always constant with respect to the principle that the wind speed increases at the discharge port 102 whose cross section is narrower than the inlet port 101. Based on the theory, such a clear fact, detailed description thereof will be omitted.

Therefore, in the wind power generator according to the present invention, the strong wind generated due to the sprint of the vehicle is introduced through the inlet 101 of the exterior 100 so that the wind speed is increased along the movement path in which the cross-sectional area is gradually narrowed, thereby rotating the inner discharge port. It is injected into the 102, the wind is injected through the discharge port 102 is to rotate the blade 200 located therein at a high speed.

FIG. 4 schematically illustrates the movement development of the air (wind) and the configuration of the wind power generator in the interior of the exterior 100 in which the blade 200 is positioned, and the configuration of the exterior 100 in which the blade 200 is located. As the upper and lower portions are provided to penetrate up and down, the inflow of wind is possible through the open upper and lower portions in addition to the discharge port 102, and at the same time, it provides a path through which the wind power rotated by the blade 200 can be discharged to the outside.

Therefore, between the lower portion of the exterior 100 and the power generator 400 is formed a vent opening 40 through which the wind can enter the lower portion of the exterior 100, due to the movement of air through the ventilation opening 40 In addition, the function of cooling the power generator 400 located below is performed.

As the blade 200 rotates at a high speed, the generator 400 connected to the rotating shaft 300 of the blade 200 changes the magnetic flux while the rotor rotates integrally to induce and charge electricity in the power generation coil. do.

In addition, the end of the rotating shaft 300 which is the center of the rotor and the blade 200 of the power generator 400 buffers an unsteady flow caused by irregular and irregular guided wind according to the moving cycle and the traveling speed of the vehicle. A flywheel 500 is further provided to uniformize the power generation output.

The flywheel 500 is a form in which a plurality of circular hollow tubes of different sizes are arranged in the same center and organically connected. The flywheel 500 is integrally rotated with the rotation shaft 300 by filling a predetermined amount of fluid therein. While the filled fluid is able to move the inner path of the hollow tube according to the direction of the force.

Therefore, the inertia force that the fluid has by the rotation of the flywheel 500 and the inertia force of the flywheel 500 by its own weight are transferred back to the rotation shaft 300 to continuously induce rotation of the rotation shaft 300. The output of the generator 400 is configured to be as uniform as possible.

In addition, the fluid filled in the flywheel 500 performs a function of cooling and lubrication of the flywheel 500 and the lower bearing of the rotary shaft 300.

The power generator 400 is a technology well known as components provided in a general generator, and although not shown, a line from the power generator 400 to a lower portion of the road along an inner path of the median strut 10. It can be used as a power source for streetlights and safety facilities installed near roads, or it can be used for various purposes by supplying it to homes or industrial sites.

The wind turbine of the present invention configured as described above is preferably provided with a plurality of dogs arranged at regular intervals along the longitudinal direction of the central separator, formed integrally with the support (10) or detachable to the upper surface in the central separator of the general road. It can be configured to facilitate this.

What has been described above is only one embodiment according to the present invention, and the present invention is not limited to the above-described embodiment, and as claimed in the following claims, without departing from the gist of the present invention, the field to which the present invention pertains. Anyone skilled in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

1 is a schematic front view of a wind turbine installed on a road median in accordance with a preferred embodiment of the present invention.

Figure 2 is a perspective view of the appearance and internal configuration according to a preferred embodiment of the present invention.

3 is a plan view of the appearance and internal configuration according to a preferred embodiment of the present invention.

4 is a schematic flowchart of the configuration and air of a wind turbine according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10. Landlord

20. Guardrail

30. Stiffeners

40. Vent

100. Appearance

101. Inlet 102. Outlet

110. Upper Cap 120. Lower Cap

200. Blade

300. Rotating shaft

400. Generator

500. Flywheel

Claims (4)

It is installed on the central separator of the road, the exterior 100 is provided to guide the inside by introducing the wind generated by the natural wind and the movement of the vehicle, and the blade 200 is rotated by the wind introduced into the exterior and The rotating shaft 300 is provided vertically to form the center of rotation of the blade, and is provided as a power generation device 400 for generating electrical energy by the amount of rotation transmitted and connected to the rotating shaft, The exterior 100 is formed in each of the inlet opening 101 on both sides in the direction of the vehicle proceeds to the discharge port 102 while the wind flowing through the inlet is moved in a spiral form along the inner duct in which the cross-sectional area is sequentially narrowed. Strongly sprayed through is configured in a spiral form to rotate the blade 200, One end of the rotating shaft 300 is configured to include a flywheel 500 filled with a predetermined amount of fluid, The upper and lower portions of the exterior are open to the center portion is installed to maintain the airtight state of the wind flowing through the inlet and rotates toward the discharge port, respectively, the upper portion to seal the top and bottom of the spiral appearance Vertical axis wind turbine of the road central separator, characterized in that the cap 110 and the lower cap 120 is installed. delete delete The vertical axis wind turbine according to claim 1, wherein an air vent 40 is formed between the lower portion of the exterior and the power generator so as to allow the passage of wind.

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