KR102095782B1 - Solar Electric Generation System with Automatic Angle adjust apparatus according to the Weather - Google Patents

Abstract

Existing prior arts are equipped with a system that tracks the sun or rotates along the path of the sun in order to increase the utilization efficiency of sunlight. However, the movement path according to the season of the sun is various, and the structure of the solar tracking device is complicated, and it is difficult to maintain a lot of necessary mechanical elements. Accordingly, the present invention is to provide a solar power generation device that can increase the best effect at an optimum cost.
The present invention, in order to solve the above problems, an upper solar panel hinge, a middle solar panel hinge and a lower solar panel solar panel having an elastic support; And the upper solar panel hinge and one end are coupled, and the other end is coupled to the cylinder moving upward as the temperature of the cylinder increases as the volume of the internal gas changes according to the outside temperature, and the lifting rod rotation support and lifting rod A top lifting plate hinge lifting rod coupled to the hinge and rotating; And it provides a photovoltaic device that is automatically adjusted to the angle according to the season, characterized in that it comprises a suspended photovoltaic panel support that is rotatably coupled with the middle photovoltaic panel hinge.
According to the present invention, the photovoltaic power generation efficiency can be increased by a simple structure and no separate management.

Description

Solar Electric Generation System with Automatic Angle adjust apparatus according to the Weather}

The present invention relates to a technique for increasing solar power efficiency and increasing durability without using external power in a photovoltaic generator.

The prior art related to the present invention relates to a rotary water photovoltaic power generation device, wherein the photovoltaic power generation device can move up and down along the water level on the water, and is configured to rotate along the trajectory of the sun. Regarding, a fixed portion is formed at the bottom of the circular rod, a fixed portion is fixed to the bottom surface of the water, and a rectangular body is formed by fixing a pillar and a plurality of metal pipes connected so that the top is exposed over the water, and a central body is supported at the center of the body A part is formed and fixed to the pillar so that it can be moved up and down, and a solar panel fixing part is formed on both sides of the central support, and installed on a buoy fixing frame and a buoy fixing frame where the buoy is fixed on the bottom of the solar panel fixing part and rotates around the pillar It consists of a rotating device and a basic fixed body and a movable fixed body that are fixed to be wrapped, and the moving fixed body moves toward the basic fixed body to press the pillar to fix the rotational position, and is connected to the control unit like a rotating device to rotate. It is fixed to the upper surface of the central support of the braking device and the buoy fixing frame, which makes the stop motion behind, but is fixed two at each side of the pillar, and slit holes penetrating both sides of the square box-shaped body are formed vertically, and the basic fixed body is moved up and down. A technique that includes a position sensor connected to a braking device as a flexible connecting line fixed to the top of a fixed box and a pillar to be guided is proposed.

  In addition, another prior art is a solar tracking sensor that tracks the direction of movement of the sun and a support for supporting a heat collecting plate for receiving a direct light source from the sun, an angle for seating the heat collecting plate is formed, and the angle and A rectangular frame assembly in which the upper support frame and the lower support frame supporting the support are symmetrical to each other; It is formed on the rear surface of the frame assembly, is supported by the support means tilt adjustment means for adjusting the inclination angle of the frame assembly with a constant amount of power; It is formed on the lower portion of the inclination adjusting means, the horizontal rotation adjusting means for rotating the frame assembly in accordance with the direction of movement of the sun left and right; Support means for supporting the frame, the inclination adjusting means and the horizontal rotation adjusting means in an axial direction; And there is a prior art including a control means for controlling the inclination adjusting means and the horizontal rotation adjusting means so that the heat collecting plate always faces the sun.

Patent Registration 10-1013339 Patent Registration 10-0734563

In addition to the above prior arts, many prior arts are equipped with a system that tracks the sun or rotates along the path of the sun in order to increase the utilization efficiency of sunlight.

  However, due to the divergence of movement paths according to the seasons of the sun, the structure of the solar tracking device has a complicated structure, and it is difficult to maintain a lot of necessary mechanical elements. In addition, the tracking of sunlight using power is accompanied by a reduction in essential efficiency by sunlight tracking.

  Accordingly, the present invention is to provide a solar power generation device that can increase the best effect at an optimum cost.

The present invention to solve the above problems,

A photovoltaic panel having an upper solar panel hinge, a middle solar panel hinge and a lower solar panel elastic support; And

The upper solar panel hinge and one end are coupled, the other end is coupled to the cylinder moving upward as the cylinder temperature rises due to the change in the volume of the gas inside according to the outside temperature, the lifting rod rotation support and the lifting rod hinge Combined to rotate the upper solar panel hinge lifting rod; And

It provides a photovoltaic device that automatically adjusts the angle according to the season, characterized in that it comprises a stopper photovoltaic panel support that is rotatably coupled with the middle photovoltaic panel hinge.

In addition, a photovoltaic device that automatically adjusts the angle according to the season, characterized in that a film for preventing heat radiation energy is attached to the photovoltaic panel to prevent deterioration of the solar panel constituting the photovoltaic panel. to provide.

In addition, in the present invention, in order to minimize thermal damage of the photovoltaic panel, and to reduce a decrease in power generation efficiency due to heating of the photovoltaic panel, a cooling water circulation pipe is attached to the back of the photovoltaic panel in a zigzag manner to cool. It provides a photovoltaic device that automatically adjusts the angle according to the season, characterized in that it comprises a water circulation pipe and a water circulation pump to enable.

In addition, in the present invention, to minimize the thermal damage of the photovoltaic panel, and to reduce the reduction in estrus efficiency by heating the photovoltaic panel, cooling water is applied to the top of the front surface of the photovoltaic panel. It provides a photovoltaic device that automatically adjusts the angle according to the season, characterized in that it further comprises a cooling sprinkler for photovoltaic panels sprayed on the surface.

According to the present invention, the solar power generation efficiency can be increased compared to a fixed solar power generator by automatically and non-powerfully adjusting the angle of the photovoltaic panel in accordance with the change of the mid-altitude of the sun that changes seasonally by the above-described configuration. By providing a simple structure and a configuration that does not require separate management, it provides a means for photovoltaic power generation that reflects the change in the mid-south elevation of the sun with low installation cost and low maintenance cost. Could.

1 is a side view of a photovoltaic device in which the angle is automatically adjusted according to the season of the present invention.
Figure 2 is a view of mounting a water-cooled cooler on the back of the solar power plate of the present invention.
3 is a view showing a sprinkler installed on the top of the photovoltaic panel of the present invention.

The present invention is to increase the efficiency of the solar power generation facility,

It is an angle of incidence of the photovoltaic power generation plate and sunlight that changes according to the mid-south altitude according to the season of the sun of the present invention. It is well known that the most efficient when the incident angle of sunlight is 90 degrees. This is because the reflected sunlight is the lowest when the incident angle is 90 degrees, and the solar energy density per unit area is high.

However, the sun rises from the east and loses as it moves to each other. Since the angle of sun movement per day reaches about 180 degrees, there are many inventions related to a system that tracks and develops the sun using various machinery and sensors. . However, since the cost of the device is excessive and exposed to the outside, the frequency of occurrence of the failure is high, and there is a question of its effectiveness.

So, in order to provide a method of increasing the efficiency of a power generation system in which a photovoltaic power generation plate is fixedly installed at a low cost, the present invention does not consider the position of the sun that changes in one day, and focuses on the altitude of the sun that changes seasonally. It was intended to provide a device for changing the slope of a photovoltaic panel.

Since the above-mentioned fixed photovoltaic power generation facilities have a higher temperature than 25 degrees Celsius, the efficiency of light deteriorates. In the case of the fixed photovoltaic power generation facilities, the highest generation efficiency is spring and autumn. The capacity is designed to come out.

The Sun's mid-altitude

Latitude of the Sun = 90 degrees-Latitude + declination of the measurement area

Declination is 0 degrees in the spring and autumn equinox, 23.5 degrees in the lower extremity, and-23.5 degrees in the winter solstice.

If your current location is 37 degrees north latitude, the mid-altitude of the celestial body located in the spring equinox and autumn equinox (declination 0 degrees = celestial equator) is 53 degrees (90 degrees-37 degrees). At this time, the installation angle of 37 degrees is required for the photovoltaic generator to be perpendicular to the sun.

In the case of the lower extremity, since the declination is +23.5 degrees, the middle-mid altitude is 76.5 degrees (53 degrees +23.5 degrees), so the installation angle of the solar generator is 13.5 degrees.

In the case of winter solstice, the declination is -23.5 degrees, so the middle and high altitude is 29.5 degrees (53 degrees -23.5 degrees), so the installation angle of the solar generator is 76.5 degrees.

In other words, the installation angle changes from 13.5 degrees to 76.5 degrees depending on the season. For this change, there are many inventions that use mechanical devices and power devices, but require a lot of maintenance and installation costs.

In order to solve this problem, in the present invention, a gas cylinder capable of expansion and contraction by heat is provided on one side, and the cylinder moves with the force of the gas expanding and contracting according to the change in external temperature. It was intended to provide a photovoltaic device in which the angle is automatically adjusted according to the season in which the angle is changed.

According to the temperature change of the present invention, a gas such as butane having a high boiling point may be used so that the pressure change inside may be large, and a halon carbon-based refrigerant, carbon dioxide, or the like, which is used as a refrigerant in consideration of an explosion risk, may also be used.

Another problem solving problem of the present invention is a reduction in efficiency by heating the solar power generating plate. The photovoltaic panel is heated from 70 to 80 degrees by midsummer sunlight, and it is known that the photovoltaic power efficiency set on the basis of 25 degrees Celsius is reduced by 0.5% in 1 degree rise in temperature, and the photovoltaic panel is 75 degrees Celsius. It is said that the power generation efficiency of 25% will be reduced.

In addition, the photovoltaic power generation panel in which such a high-temperature state persists is deteriorated, and when such deterioration occurs, the power generation efficiency is further reduced. In order to solve this problem, in the present invention, in order to prevent deterioration of the photovoltaic panel, a heat ray blocking film is attached to the surface of the photovoltaic panel. The blocking of hot light may prevent deterioration of the photovoltaic power generation plate by blocking light in the infrared region, which generates a lot of heat.

In addition, by installing a cooling water circulation pipe on the rear surface of the photovoltaic panel to be in thermal contact, circulating the cooling water, thereby lowering the temperature of the photovoltaic panel in a season such as midsummer, thereby improving the photovoltaic power generation efficiency.

In addition, by lowering the temperature of the photovoltaic panel and spraying high-pressure cooling water on the surface of the photovoltaic panel to remove foreign substances on the surface, it prevents deterioration of the photovoltaic panel and removes foreign substances on the surface to improve power generation efficiency. It also provided a means to do so.

A temperature sensor for controlling the circulation of the cooling water and spraying high-pressure cooling water is installed in the solar panel and the solar panel (for measuring the temperature of the solar panel) and spaced apart (for measuring environmental information). Can be.

The following means were used to achieve the above object.

Solar power generation device that automatically adjusts the angle according to the season of the present invention

A photovoltaic panel having an upper solar panel hinge, a middle solar panel hinge and a lower solar panel elastic support; And

The upper solar panel hinge 120 and one end is coupled, the thermal expansion cylinder 200 is coupled to the other end of the upper solar panel hinge lifting rod 210 supported by the lifting rod rotation support 230 is external It has a cylinder that moves upward as the temperature of the cylinder changes and the cylinder temperature rises depending on the temperature.

It is a photovoltaic device that automatically adjusts the angle according to the season, characterized in that it comprises a suspended photovoltaic panel support that is rotatably coupled with the middle photovoltaic panel hinge.

In addition, a photovoltaic device that automatically adjusts the angle according to the season, characterized in that a film for preventing heat radiation energy is attached to the photovoltaic panel to prevent deterioration of the solar panel constituting the photovoltaic panel. to provide.

In addition, in the present invention, in order to minimize thermal damage of the photovoltaic panel, and to reduce a decrease in power generation efficiency due to heating of the photovoltaic panel, a cooling water circulation pipe is attached to the back of the photovoltaic panel in a zigzag manner to cool. It provides a photovoltaic device that automatically adjusts the angle according to the season, characterized in that it comprises a water circulation pipe and a water circulation pump to enable.

In addition, in the present invention, to minimize the thermal damage of the photovoltaic panel, and to reduce the reduction in power generation efficiency due to the heating of the photovoltaic panel, cooling water is applied to the top of the front surface of the photovoltaic panel. It provides a photovoltaic device that automatically adjusts the angle according to the season, characterized in that it further comprises a cooling sprinkler for photovoltaic panels sprayed on the surface.

The cross section of the thermal expansion cylinder used in the present invention is shown in Fig. 4A. Filling a certain amount of any one of the butane gas or halon carbon-based refrigerant or carbon dioxide into the gas cylinder of FIG. 4A, connected to the gas cylinder corresponding to the cylinder body to enable heat conduction, and heat from surrounding air and roof plate, etc. In order to absorb and heat balance, a pin is formed in a circular shape in a radial direction as shown in FIG. 4B (cylinder plan view). Another method is to construct a heat circuit that is thermally connected to a heat absorbing device capable of absorbing heat from the atmosphere and the roof. It is possible.

In order to amplify the movement of the thermal expansion cylinder and increase the inclination change of the photovoltaic panel, the angle and length of the upper solar panel hinge lifting rod 210 may be adjusted. It is preferable that the angle change of the photovoltaic power generation plate is changed by a slope of +23.5 degrees and -23.5 degrees based on an installation angle of 37 degrees in spring and autumn.

However, in the condition that the angle is difficult to control, the angle of 10 degrees or more in summer decreases from the installation angle of the photovoltaic plate, and in the case of winter, the angle of the photovoltaic plate increases by 10 degrees or more. It is set as the design condition of the hinge lifting rod 210 of the upper solar power panel.

The increase in solar power generation efficiency due to the angle change below is difficult to expect, because the effect of increasing the efficiency of the angle changing device of the present invention cannot be seen.

In addition, by actively controlling the angle of the photovoltaic panel of the present invention not by external temperature, but by actively using a controller to form a gas inlet in FIG. 4A to increase the pressure on the gas from the outside, the piston of the cylinder is actively activated. It is also possible to configure it to be movable. Of course, it is of course possible to use a clock that can know the season and a GPS receiver that informs the location of the photovoltaic panel for such control.

A temperature sensor for measuring the external temperature can also be added.

100: solar power system
110: solar power generation board
120: upper solar panel hinge
130: suspended solar power panel hinge
140: elastic support of the bottom solar power plate
150: suspended solar power plate support
200: thermal expansion cylinder
210: upper solar panel hinge lifting rod
220: lifting rod hinge
230: lifting rod rotation support
300: roof
400: water circulation pump
410: water circulation pipe
500: Solar power generation plate cooling sprinkler

Claims (1)

A photovoltaic panel having an upper solar panel hinge, a middle solar panel hinge and a lower solar panel elastic support; And
The thermal expansion cylinder 200 coupled to the other end of the upper photovoltaic panel hinge lifting rod 210 supported by the lifting rod rotation support 230 is coupled to the upper photovoltaic panel hinge 120. Equipped with a thermal expansion cylinder that moves upward as the temperature of the cylinder increases as the volume of the gas inside changes depending on the temperature,
A suspended solar power panel support rotatably coupled to the suspended solar power panel hinge; And
A temperature sensor for measuring external temperature; And
A film for blocking heat radiation energy to prevent deterioration of the photovoltaic panel to minimize thermal damage of the photovoltaic panel
A water circulation pipe and a water circulation pump allowing a cooling water circulation pipe to be zigzagly attached to the rear surface of the solar power generation plate to cool the solar power generation plate, and
A sprinkler for cooling a photovoltaic power generation panel is provided on the front top of the photovoltaic power generation panel to spray cooling water on the surface of the photovoltaic power generation panel.
The thermal expansion cylinder is filled with a certain amount of a refrigerant of either a halon carbon-based refrigerant or carbon dioxide in the gas cylinder of the thermal expansion cylinder, is connected to the gas cylinder corresponding to the body of the thermal expansion cylinder to enable heat conduction, heat from the surrounding air and the roof plate It is composed of a circular pin formed in a radial direction in a circular shape to absorb and heat balance.
In order to control the angle of the photovoltaic power generation board by an external temperature, and to actively control using a controller, a gas inlet is further formed in the thermal expansion cylinder to increase the gas pressure from the outside so that the cylinder piston can be actively moved. The solar power generation device automatically adjusts the angle according to the season, characterized in that the controller comprises a clock and a GPS receiver.

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