KR20100023935A - A solar photovoltaic generator - Google Patents

Abstract

PURPOSE: A solar electricity generator is provided to improve the safety of a solar power generation module by dispersing the load of a module frame using a main poster and horizontal and vertical rotation control members. CONSTITUTION: A solar electricity generator comprises a vertical rotation control member(400), a center module frame(300), a main poster(100), a horizontal rotation control member and a control member(900). The main poster is vertically fixed on the ground. A main shaft is on the center of a center module frame locating on the top of the main post. A first sub-poster is connected to the main poster. The vertical rotation control member rotates a module frame(350) up and down according to position changing of the sun. The horizontal rotation control member is connected to the main poster through a second sub-poster. The horizontal rotation control member rotates module frame right and left according to position changing of the sun. The control member controls vertical rotation control member to face to a solar power generation module. A drive motor rotates the vertical rotation control member.

Description

Solar generator {A solar photovoltaic generator}

The present invention relates to a photovoltaic generator that accurately collects and converts sunlight into electricity by tracking the position of the sun in which the altitude and azimuth change are changed. By installing the horizontal and vertical angle control means having an angle change amount according to the tilt angle of the module frame according to the direction of movement of the sun, not only to receive sunlight at right angles, but also to install vertical and horizontal rotation control means in addition to the main poster. Due to the distributed load of the module frame relates to a solar generator that improved the safety of the photovoltaic module as possible.

Humans are developing new energy resources to replace fossil energy due to the depletion of fossil energy, and have great interest in the solar energy field, which can be used without any pollution and is infinitely available. Solar power generation is a semiconductor device with a power generation part and an electronic part, so there is no mechanical vibration and noise, and the solar cell has a life span of at least 20 years and is easy to semi-automate or automate a power generation system. As it has the advantage of minimizing the cost, various nature-friendly products using solar energy are appearing one after another.

The solar generator tracked sunlight by measuring the altitude or orientation of the sun or following a preprogrammed method in time.

As a conventional technique, a method of tracking sunlight to receive sunlight at right angles is disclosed in Korean Utility Model Application No. 1998-0008246, which includes a vertical axis and a horizontal axis driven by a motor and a reducer in a conventional solar heat collecting plate. As a technology that is formed and operated by a gear, a gear is attached to the rear side of the heat collecting plate, and a problem arises in that it requires a lot of power to support the heat collecting plate and move the heat collecting plate.

In addition, the conventional solar heat collecting device is not only made of the above-mentioned welding, but also sophisticated, field assembly is required a lot of labor costs, when using the inexperienced manpower could cause defects in the system.

In addition, the conventional heat collecting device is vertical movement along the solar heat, is located in the center supporting the heat collecting plate is subjected to a very large torque, the member was in a very weak state.

Therefore, the first object of the present invention for solving the above problems is horizontal rotation control means and vertical rotation control means on both sides of the main post installed on the module frame supporting the photovoltaic module in order to use the solar light efficiently The hinges are combined and installed to support each other to overcome the twisting, sagging and wind shaking of the module frame, and the center of gravity is balanced, minimizing the load on the main poster and ensuring overall system safety. The purpose is to provide a photovoltaic device.

And another object of the present invention is to install a combination of the vertical rotation control means and the horizontal rotation control means hinged in addition to the main post of the conventional photovoltaic generator of a complex structure, the angle of the photovoltaic module efficiently changes the amount of power It is a solar power generator that can be produced by pre-standardized parts in a factory, and it is very simple to assemble in a place where it is intended to be installed.

It will be described in more detail the configuration of the present invention for achieving the above object.

The photovoltaic generator (a) according to the present invention includes a main shaft 100 vertically installed from the ground, and a main shaft 250 in which the module frame 350 is installed on the upper part of the main post 100 so as to be operated up and down. And a rotation unit 260 including a module frame 350 installed on the main shaft 250, and a solar power generation module 200 installed on the main shaft 250 to generate power using solar light. And, in accordance with the day movement direction of the sun vertical rotation control means 400 and the lower end of the vertical rotation control means 400 to move by a certain amount of power installed in the center module frame 300 for driving up and down Module frame 350 to drive the left and right of the module frame 350 according to the change in the altitude of the sun according to the first sub-poster 700 and the seasonal change that is coupled to the main poster 100 and the hinge 600 Horizontal rotation control means 500 and the horizontal installed in the The second sub posterer 750 connecting the lower end of the rotation control means by coupling the main poster 100 and the hinge 600, and the left and right rotation of the module frame 350 on the upper portion of the horizontal adjustment means 500 The hinge 600 is coupled to the arm 500, and the control means 900 for controlling this to control the heat collecting plate to always face the sun.

As described above, the present invention, as well as the main post 100 installed on the module frame 350 for supporting the photovoltaic module 200 to the ground as well as vertical rotation control means 400 and horizontal rotation control to both sides By installing the means 500 by coupling each hinge 600 to the central module frame 300 and the module frame 350, it is possible to overcome the torsion or deflection and wind shaking phenomenon and at the same time balance the center of gravity This minimizes the load on the main poster 100 and has the effect of greatly improving overall system safety.

In addition, the photovoltaic module 200 is efficiently installed by combining the vertical rotation control means 400 and the horizontal rotation control means 500 with a hinge 600 in addition to the main post 100, rather than the conventional photovoltaic generator having a complicated structure. Is a solar generator that can produce a large amount of power by changing its angle.It is made of parts that are standardized in the factory and can be assembled very simply by simply assembling it where it is intended to be installed. It can be effective.

1 is a perspective view showing the overall coupling state of the present invention
Figure 2 is an embodiment showing a combined state of the horizontal rotation control means of the present invention
Figure 3 is an embodiment showing a combined state of the vertical rotation control means of the present invention
Figure 4 is an enlarged view of the hinged state of the present invention
Figure 5 is a front view showing the angle change of the vertical, horizontal rotation control means of the present invention

On the basis of the accompanying drawings an embodiment of the present invention having the configuration and effects as described above will be described in more detail. The same name and the same reference numerals are used for the same configuration and additional description thereof will be omitted.

Figure 1 is an overall perspective view showing a state in which the installation of the solar generator (a) of the present invention is completed, Figure 2 is an exemplary embodiment showing a combined state of the horizontal rotation control means of the present invention.

As shown in FIGS. 1 and 2, the photovoltaic generator (a) according to the present invention includes a main shaft 100 and a main poster on the main poster 100 and the main poster 100 installed in the central module frame 300. (100) is composed of a combination of the vertical rotation control means 400 installed on the center module frame 300 of the side, and the horizontal rotation control means 500 installed on the module frame 350.

Photovoltaic generator (a) of the present invention is installed on the time tracking program and timer to track the movement direction of the sun by time zone, perpendicular to the ground supporting the solar power module 200 to receive the direct sunlight and the vertical The main poster 100 is formed, the main shaft 250 is installed in the center of the center module frame 300 so that the main shaft is rotatable on the upper portion of the main post 100, the module frame ( Vertical rotation control means 400 for adjusting the angle of the 350, which is formed in the central module frame 300 on one side of the main poster 100, the lower portion of the vertical rotation control means 400 and the main poster 100 The hinge 600 is coupled to the first sub poster 700, and is formed in the module frame 350 so that the horizontal rotation control means 500 and the horizontal rotation control means 500 rotate left and right of the module frame. As the main poster 100 and the second sub poster 750 The hinge is coupled, the upper portion of the horizontal rotation control means 500 is the hinge 800 for the left and right rotation of the module frame 350 and the arm 800 is coupled to control, so that the heat collecting plate is always facing the sun It consists of a control motor 900 and a drive motor 950 for the rotation of the vertical rotation control means.

Hereinafter, with reference to the accompanying Figures 3 and 4, 5, the installation structure of the solar generator (a) according to an embodiment of the present invention will be described in more detail.

2 and 3, the main shaft 250 installed on the upper portion of the main poster 100 has a bracket 270 to safely withstand the weight of the module frame 350 during operation up and down the module frame 350. The left and right sides of the rotary unit 260, as well as attached to both sides so that the module frame 350 can be moved up and down safely without being affected by the wind.

Vertical rotation control means 400 rotates the module frame 350 up, down in accordance with the day movement direction of the sun.

The vertical rotation control means 400 is installed horizontally on one side of the main post 100 installed in the center module frame 300, and is installed by coupling the nut 600 to the upper portion of the vertical rotation control means 400. The first sub-post 700 is hinged to the main poster 100 is installed on the lower portion, which is different from the vertical control means of the conventional solar generator, the present invention is the top of the vertical rotation control means (400) And the first sub-poster 700 by combining the hinge 600, the angle of the vertical rotation control means 400 is changed in accordance with the angle change according to the sun of the module frame 350 of the heavy module frame 350 It can safely support it when driving up and down.

Referring to FIG. 5 to describe this in more detail, when the module frame 350 is moved up according to the moving direction of the sun, the vertical rotation adjusting means installed by coupling the hinge 60 to the center module frame 300 ( The upper part of 400) has a characteristic of moving together by the amount of change in the moving angle of the sun, thereby stably supporting the photovoltaic module.

4 is an enlarged view illustrating each hinge 600 coupled portion, wherein the nut 600 coupled to the hinge 600 is filled with lubricating oil to allow smooth rotation during rotation. .

In addition, the lower end of the vertical rotation control means 400 is formed with a drive motor 950 for the up and down operation of the module frame 350 and the control means 900 pre-programmed in accordance with the sun.

And the vertical rotation control means 400 is interlocked by the control means 900 operated by the program by tracking the position change of the sun with time by time zone by the timer is actually mounted solar power module 200 You look at the sun exactly. That is, compared to the control means that automatically tracks the position of the solar light according to the weather conditions and rotates in reverse direction, the module moves in a constant direction regardless of the weather conditions, which is stable regardless of the weather conditions. It rotates and receives sunlight. By such a structure, the electricity generated in the photovoltaic module 200 enters an inverter through a wire and is sent out to a nearby power transmission line to be sold.

2, the horizontal rotation control means 500 rotates the module frame 350 left, right according to the moving direction according to the season of the sun.

Horizontal rotation control means 500 is installed on the module frame 350 located on the side of the center module frame 300, the upper portion of the 360 ° C rotatable arm 800 by forming a hinge 600 as described above It has the same effect as the vertical rotation control means and can efficiently receive sunlight at right angles.

And unlike the vertical rotation control means 400 that is automatically adjusted by the motor, the horizontal rotation control means 500 for the moving direction according to the season of the sun does not have to be used frequently. Therefore, to adjust once every season, or when you feel the need to adjust, altitude adjustment device 960 that can simply adjust the altitude of the photovoltaic module 200 by manual operation at the bottom of the horizontal rotation control means (500) It is characterized by having. The shape of the altitude control device 960 is not determined, it can be said that the handle shape that can be easily rotated by hand.

In addition, the horizontal rotation control means 500 is the second sub-post 750 connected to the cylinder of the middle portion of the main post 100 and the lower end of the horizontal rotation control means 500 to be supported by the main post 100 Has a feature that is connected to the rotatable hinge 240. This is the weight of the horizontal rotation control means 500 is supported by the second sub-post 750, the horizontal rotation control means 500 to adjust the inclination of the frame assembly with a small force using the lever principle The light is irradiated at a right angle.

As described above, the present invention has been described with reference to the embodiment of the configuration described above, but can be formed in various ways within the scope not departing from the technical idea of the present invention.

Solar power generator
100: main post 200: solar power module
250: main shaft 260: rotary unit
270: Bracket 300: Center module frame
350: module frame 400: vertical rotation control means
500: horizontal rotation control means 600: hinge
700: first sub poster 750: second sub poster
800: arm 900: control means
950: drive motor 960: altitude adjustment device

Claims (5)

In the solar power generation device,


The main poster 100 is formed perpendicular to the ground supporting the solar power module 200 in order to receive the solar tracking sensor and the sun and vertical direct light source to automatically track the direction of movement of the sun, the main post 100 The main shaft 250 is installed at the center of the center module frame 300 to enable the main shaft to be rotated on the upper portion of the


It is formed by connecting to the main poster 100 as a first sub poster 700, vertical rotation control means for rotating the module frame 350 in accordance with the day movement direction of the sun 400;


A horizontal rotation control means (500) formed by connecting to the main poster (100) by a second sub poster (750) and rotating the module frame (350) left and right according to a seasonal movement direction of the sun;


By controlling the vertical rotation control means 400 so that the photovoltaic module always faces the sun and the control means (900)


Solar generator, characterized in that it comprises a drive motor (950) for rotating the vertical rotation control means (400).

According to claim 1, In order to safely withstand the weight of the photovoltaic module 200 without being affected by wind, by attaching the bracket 270 to both sides of the rotary unit 260, but not both Photovoltaic generator, characterized in that the main shaft 250 to support the photovoltaic module 200 is formed on the main post 100.

According to claim 1, wherein the vertical rotation control means 400 is supported by the first sub poster 700 coupled to the main poster 100 and the hinge 600, the upper end of the vertical rotation control means 400 is a module frame Solar generator, characterized in that the hinge 600 is installed to be rotatably coupled to easily adjust the 350.

According to claim 1, wherein the horizontal rotation control means 500 is supported by a second sub poster 750 coupled to the main poster 100 and the hinge 600, the upper end of the horizontal rotation control means 500 is a module frame Solar generator, characterized in that the arm (800) is installed, the hinge (600) is installed to be rotatably coupled to 360 ℃ to easily adjust (350).

The solar generator according to claim 4, wherein the lower end of the horizontal rotation control means (500) includes an altitude control device (960) capable of simply adjusting the altitude of the photovoltaic module (200) by manual operation. .

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