KR100948251B1 - Sunlight-electric cell plate equipment for sun follow moving with structure roof institution - Google Patents

Abstract

PURPOSE: A solar cell plate device is provided to maximize generation of electricity by moving to a position with the maximum sunlight. CONSTITUTION: A transfer unit(20) is formed with an arc and is installed on a roof of a building. A movable cell(10) is interlocked with a rotation unit which is installed inside the transfer unit. A control unit(30) is installed on a solar cell plate and is connected to a sun position sensor which measures and transmit the position of the sun. A push fixing unit(60) is installed on both sides of a solar cell plate. A push plate is vertically transferred by installing a transfer motor on the movable cell. A fixing unit(50) enforces the fixing force of the movable cell and the transfer unit.

Description

Solar-electric cell plate equipment for sun follow moving with structure roof institution}

The present invention relates to a solar panel device which is installed on the roof of the building and moves along the sun, and more particularly, a movable battery unit in which a solar panel is installed, a transfer table in which the movable battery unit is coupled and transported, and the movable unit. The present invention relates to a solar panel apparatus installed on a roof of a building, which is configured to include a control unit connected to and controlled by a battery unit and moved along the sun.

In general, photovoltaic devices are power generation facilities in which light energy from the sun is directly converted into electrical energy by solar cells made of semiconductor materials that react to light. The energy source is clean, unlimited, and easy to maintain. It is attracting attention as an alternative energy for thermal fuel that is currently being depleted due to its advantages such as unmanned operation and facility construction in a short period of time, which enables quick response to increased demand. However, in addition to the above advantages, power generation requires a large installation area due to low energy density, limited installation place, high manufacturing and installation cost of photovoltaic device, and unstable output due to solar radiation fluctuation. Therefore, the research and development to overcome this situation is actively performed.

Such a photovoltaic device generally includes a solar cell module panel for generating direct current electricity by receiving sunlight, a power control device for controlling electricity generated by the solar cell module panel, a storage battery for storing generated electric energy, and It consists of a configuration including an inverter for converting a direct current electricity into an alternating current, it is divided into a fixed solar power generator and a solar tracking solar power generator according to the installation method of the solar cell module panel.

The fixed type solar power generator is a solar cell module panel fixed by the angle and orientation determined by comprehensively analyzing the solar altitude angle and the amount of sunshine measured at a certain point in time, and the solar cell module panel is simply a fixed angle and bearing on the support. As the solar cell module panel is stably installed, the durability of the device is high, and the maintenance is easy and easy after installation.

Here, when solar light is incident on the solar cell module panel at a right angle, the power generation efficiency of the photovoltaic device is maximized. In the case of the fixed photovoltaic device, regardless of the trajectory of the sun moving in the east-west direction between sunrise and sunset Since the solar cell module panel is fixed at a certain angle and orientation, there is a problem that power generation efficiency is significantly lower.

Accordingly, a solar tracking photovoltaic device having a high power generation efficiency by tracking the movement trajectory of the sun and rotating the solar cell module panel accordingly is currently disclosed and disclosed. The solar tracker type photovoltaic device has various configurations, but generally includes a tracker driven according to the movement trajectory of the sun to mount the solar cell module panel on the tracker.

The trackers used in the solar tracking photovoltaic device include a single-axis rotation tracker and a two-axis rotation tracker, which tracks the sun's trajectory moving from east to west at sunrise to sunset. The solar cell module panel is rotated in the east-west direction, and the two-axis rotation tracker rotates the solar cell module panel in the east-west direction and the north-south direction by accurately tracking the position of the sun in consideration of the altitude of the sun.

Here, when the double-axis rotating tracker is applied to the solar tracking type solar power generating device, the position of the sun is accurately tracked so that the solar light is always incident to the solar cell module panel at a right angle, thereby maximizing power generation efficiency. To this end, the configuration of a drive device composed of a drive actuator, a drive link, etc. is complicated, significantly increasing the manufacturing and installation costs, and by accurately tracking the position of the sun and rotating the solar cell module panel in real time, There was a problem that the damage occurs frequently and the maintenance work is cumbersome and the cost is increased. In addition, in the case of the double-axis rotation type tracker, the driving device must be installed on each solar module panel one by one, and as the number of solar module panels installed in a certain area increases due to the increase in the size of the photovoltaic device. Increased costs.

In order to solve the above problems, the present invention is a mobile battery unit is automatically moved along the transfer table to the position of the maximum amount of daylight according to the season, the control unit is connected to the mobile battery unit to control the rotating motor of the mobile battery unit It is an object of the present invention to provide a solar panel device installed on the roof of the building, characterized in that the solar panel is configured to be rotated along the sun, that is, the position of the largest amount of daylight.

The present invention for solving the above problems relates to a solar panel device which is installed on the roof of the building and moved along the sun, the transfer of the mobile battery unit is installed, the mobile battery unit is coupled to the solar cell is transported And a control unit connected to the mobile battery unit for controlling.

According to the present invention, the mobile battery unit is automatically moved along the transfer table to a position where the maximum amount of daylight is provided according to the season, and the control unit is connected to the mobile battery unit to control the rotating motor of the mobile battery unit to control the solar panel of the day. Since the amount of daylight is rotated along the position of the largest sun, there is an effect that can maximize the generation of electricity.

The present invention is a solar panel installed on the roof of the building, the transfer table 20 is formed in an arch shape is installed on the roof of the building; Is installed on the conveyer 20 is conveyed on the conveyer 20, the solar panel 11 is coupled to the upper side by a hinge, the rotating motor for rotating the solar panel 11 on one side ( 12) is provided, the mobile battery unit 10 is installed on the other side and the motor 13 for transferring along the transfer table 20, and interlocked with the rotating portion 14 is installed inside the transfer table; Is connected to the mobile battery unit 10, the rotary motor 12 and the motor 13 is connected and controlled through the control signal of the control unit 31, the solar panel 11 is connected to the control unit 31 The charging unit 32 is connected to the charging unit 32 to charge the power generated through the transmission, and transmitted to the external device 40 connected to the charging unit 32, installed on the solar panel 11 to measure and transmit the position of the sun A control unit 30 to which the solar position sensor 33 is connected; It is installed on both sides of the photovoltaic panel 11 of the mobile battery unit 10 to press and fix it, and the contact portion 63 made of an elastic material is adhered to the lower surface of the pressing plate 62 in contact with the photovoltaic panel 11. A press fixing part 60 to which the transfer motor 61 is installed in the movable battery part 10 so that the press plate 62 is transferred in the vertical direction; The hinges are coupled to both sides of the movable battery unit 10 in the moving direction, and are installed on the transfer table 20 to be moved simultaneously with the movable battery unit 10, and the movable battery unit 10 and the transfer table 20. Included; to secure the fixing force of the fixing (50).

The mobile battery unit 10 is automatically rotated on the transport table 20 by rotating the rotary wheel installed on the lower side by the operation of the motor 13, when the motor 13 is broken The rotating part 14 and the rotating wheel which are installed on the inner side of the transfer table 20 are connected to the rotating belt and are manually moved through a handle formed on the rotating part 14.

That is, the present invention will be described in more detail as follows.

A rotating motor 12 for rotating the solar panel 11 is installed on one side of the movable battery unit 10 in which the solar panel 11 generating power to the solar is coupled by a hinge, The branch 10 is formed in an arch shape on the roof of the building so as to move along the transport table 20 to be moved along the transport table by rotating the rotation wheel formed on the lower side of the mobile battery unit 10. In addition, the rotating part 14 and the rotating wheel which are installed inside the conveying table 20 are connected to the rotating belt and rotated simultaneously with the rotating wheel by the rotation of the motor 13 to move on the conveying table 20 on the movable battery part. 10 is moved, the handle is formed on the rotating portion 14 to move the mobile battery unit 10 manually in case of failure of the motor 13.

Since the position of the sun changes in accordance with the season, the mobile battery unit 10 is moved along the carriage 20 and moved to the position with the highest amount of sunlight, and the solar panel 11 is positioned at the position of the sun. As a result, it rotates to the best position of daylight.

In addition, the control unit 30, which is connected and controlled by the solar panel 11, the motor 13, and the rotating motor 12 of the mobile battery unit 10, is a control unit 31 and a storage unit 32. And a solar position sensor unit 33 is installed in the interior of the building.

The solar position sensor 33 of the control unit 30 is installed on the solar panel 11 detects the position of the sun and transmits it to the control unit 31, the control signal of the control unit 31 The motor 13 and the rotating motor 12 are controlled, and the power generated by the solar panel 11 is stored in the storage unit 32 through the control unit 31.

Then, the pressing fixing part 60 for pressing and fixing the solar panel 11 on both sides of the movable battery part 10 in the front and rear or left and right directions is formed, and the pressing fixing part 60 is the solar panel 11. The contact portion 63 of the elastic material is bonded to the lower side of the pressing plate 62 which is in contact with the contact plate, and the transfer motor 61 is installed in the movable battery unit 10 so that the pressing plate 62 is transferred in the vertical direction. It is constructed.

In addition, the fixing table 50 which is coupled to the hinge in both sides of the moving direction of the mobile battery unit 10 is installed on the transfer table 20 is moved simultaneously with the movement of the mobile battery unit 10, the mobile battery unit ( 10) and the fixing force of the transfer table 20 will be strengthened.

1 is a configuration diagram showing that the solar panel is installed on the roof of the building is installed on the building roof according to the present invention and moved along the sun,

2 is a view showing that the movable battery unit of the solar panel device installed on the building roof according to the present invention is moved along the sun to move the transport table by tracking the sun according to the season;

3 is an exploded perspective view of a movable battery unit and a transfer table of a solar panel apparatus installed on a building roof according to the present invention and moved along the sun;

4 is a perspective view showing that the movable battery unit and the transfer table of the solar panel apparatus installed on the building roof according to the present invention are moved along the sun,

5 is a side view showing that the solar panel of the solar panel device installed on the building roof according to the present invention is moved along the sun, rotates along the sun,

Figure 6 is a side view showing that the pressing plate is fixed to the solar panel of the solar panel device installed on the building roof according to the present invention is moved along the sun,
Figure 7 is a block diagram showing the overall configuration of a solar panel device installed on the building roof according to the present invention is moved along the sun.

<Explanation of symbols for the main parts of the drawings>

10: removable battery unit 20: transfer table

30: control unit

Claims (2)

In the solar panel installed in the roof of the building, A transfer table 20 formed in an arch shape and installed on the roof of the building; Is installed on the conveyer 20 is conveyed on the conveyer 20, the solar panel 11 is coupled to the upper side by a hinge, the rotating motor for rotating the solar panel 11 on one side ( 12) is provided, the mobile battery unit 10 is installed on the other side and the motor 13 for transferring along the transfer table 20, and interlocked with the rotating portion 14 is installed inside the transfer table; Is connected to the mobile battery unit 10, the rotary motor 12 and the motor 13 is connected and controlled through the control signal of the control unit 31, the solar panel 11 is connected to the control unit 31 The charging unit 32 is connected to the charging unit 32 to charge the power generated through the transmission, and transmitted to the external device 40 connected to the charging unit 32, installed on the solar panel 11 to measure and transmit the position of the sun A control unit 30 to which the solar position sensor 33 is connected; It is installed on both sides of the photovoltaic panel 11 of the mobile battery unit 10 to press and fix it, and the contact portion 63 made of an elastic material is adhered to the lower surface of the pressing plate 62 in contact with the photovoltaic panel 11. A press fixing part 60 to which the transfer motor 61 is installed in the movable battery part 10 so that the press plate 62 is transferred in the vertical direction; The hinges are coupled to both sides of the movable battery unit 10 in the moving direction, and are installed on the transfer table 20 to be moved simultaneously with the movable battery unit 10, and the movable battery unit 10 and the transfer table 20. A solar panel device installed on the building roof, characterized in that it is configured to be moved along the sun. The method of claim 1, The movable battery unit 10 is automatically rotated on the transfer table 20 by rotating the rotary wheel installed on the lower side by the operation of the motor 13, the transfer in case the motor 13 is broken The rotating part 14 and the rotating wheel installed on the inner side of the base 20 are connected to the rotating belt and installed on the roof of the building, which is manually moved through a handle formed on the rotating part 14. Solar panel device moved along.

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