KR102104579B1 - Photovoltaic cell panel direction angle adjusting apparatus - Google Patents

Abstract

The present invention is to provide a functional photovoltaic panel angle adjustment device which allows a user to adjust the angle of the photovoltaic panel according to the position of the sun, but conveniently changes the angle to a desired position or conveniently forms an angle adjustment if necessary. A functional photovoltaic panel angle adjustment device includes first, second, and third panel mounting parts including a plurality of photovoltaic panels arranged therein, first, second, and third long shafts formed in the center, first, second, and third fixing brackets formed on the left and right sides to fix the first, second, and third long shafts, and first, second, and third protrusion rods fixed in a vertical direction to rotate the first, second, and third long shafts; the third panel mounting part formed on a lower portion of the second panel mounting part, wherein the third panel mounting part includes a plurality of photovoltaic panels arranged therein, the third long shaft formed in the center, the third fixing bracket formed on the left and right sides to fix the third long shaft, and the third protrusion rod fixed in the vertical direction to rotate the third long shaft; an upper and lower moving rod formed by connecting the first, second, and third protrusion rods with a shaft pin; and a module angle adjustment unit including a vertical frame and a horizontal frame formed to fix and support the first, second, and third panel mounting parts wherein the module angle adjustment unit is connected to the central shaft of the second panel part and fixed to the vertical frame such that the second panel mounting part is rotated to change the angle. A drive gear having a tool mounting member may be driven manually by inserting a handle into the tool mounting member, or may be selectively used by rotating the driving gear by inserting a power tool into the tool mounting member. Therefore, the user and the constructer can conveniently use it or reduce the maintenance cost.

Description

Photovoltaic panel angle adjustment device for solar position change {PHOTOVOLTAIC CELL PANEL DIRECTION ANGLE ADJUSTING APPARATUS}

The present invention relates to a functional solar panel angle adjustment device that allows an angle of a solar panel to be adjusted according to the position of the sun, but can be conveniently changed to a desired position by a user or conveniently adjusted when necessary.

Energy has been obtained from fossil fuels worldwide, but its reserves are limited, and environmental pollution occurs due to the increase in carbon dioxide or acidic pollutants due to the use of fossil fuels. Due to these shortcomings of fossil energy, alternative energy is being developed mainly in developed countries, and among the alternative energy, the use of new and renewable energy, which is infinite and renewable energy, is spreading. Among them, photovoltaic energy, which is receiving attention, is actively conducting research on photovoltaic power generation systems in various countries with high solar power density. As a result of these research activities, as the distribution of new and renewable energy has expanded, solar power generation systems have been installed and operated in many countries.

In particular, in order to reduce power consumption at home in addition to the construction of a national solar power plant, a small solar power generation system installed in an individual home is widely spread. In such a solar cell, the more the irradiation amount at the same temperature, the more the output of the solar cell comes out, and the terminal voltage of the solar cell also increases. Accordingly, a solar tracking system that always directs the solar panel to the sun is applied, and in order to obtain the maximum solar cell output, many solar power systems perform “maximum power point control (MPPT: Maximun Power Point Tracking)”. In order to increase the power generation efficiency of the photovoltaic power generation system, various controls including MPPT control are performed, and power generation circuits of various solar cells for inducing maximum output of a conventional positive battery are provided. However, if all the devices for improving the photovoltaic power efficiency are applied to a small photovoltaic power generation system installed in a general home, business, etc., the price will rise excessively, and despite the need for ordinary consumers, the small photovoltaic power generation system will It is hesitant to equip, and accordingly, has a problem of acting as an obstacle to the distribution of a small-scale solar system.

The small-scale photovoltaic power generation system installed in a general home, business, etc. of the prior art occupies a relatively bulky volume compared to the size of a building, and thus has a difficult problem in that the installation location is limited by a rooftop, an outer wall, or the like.

In addition, since it is necessary to add a device for adjusting the automatic position angle according to a separate solar position after installation, there is a problem in that the installation cost and the equipment management cost are doubled.

1. Korea Patent Office Registration Patent No. 0276791 2. Korea Patent Office Registration Patent No. 1254008

The problem to be solved of the present invention

It is to provide a solar panel angle control device for changing the position of the sun that is easy to move and install and can reduce installation and management costs.

An object of the present invention is to provide a solar panel angle adjustment device for changing the position of the sun that can be installed regardless of the installation place, such as buildings, factories, home houses, rooftops.

Means for solving the problems of the present invention

 A plurality of solar panels are arranged and the first, second, and third fixing rackets formed on the left and right sides fixing the first, second, and third long axes formed in the center and the first, second, and third long axes 3 First, second, and third panel mounting portions made of first, second, and third projecting rods fixed in a vertical direction to rotate the long axis; It is formed at the bottom of the second panel mounting portion, a plurality of solar panels are arranged, and a third fixing racket formed on the left and right fixing the third long axis and the third long axis formed in the center and the third long axis are vertically rotated. A third panel mounting portion made of a third projecting rod having a fixed direction; A shanghai copper rod formed by connecting the first, second and third protruding rods with an axial pin; The vertical frame and the horizontal frame are formed to fix and support the first, second, and third panel mounting portions, and are connected to the central axis of the second panel portion and fixed to the vertical frame so that the second panel mounting portion is rotated to change the angle. Module angle adjustment unit;

 The drive gear having a tool mounting tool was achieved by being manually driven by inserting a handle into the tool mounting tool or by rotating a driving gear by inserting a power tool into the tool mounting tool.

The solar panel angle adjustment device for the position change of the sun of the present invention

It has the effect that the user or the contractor can conveniently construct it by forming it so that it can be fixed at the highest position on the moving path of the sun during construction.

In addition, it is a very useful invention that can control a solar panel without using an electronic device or an electric device, minimize maintenance costs, and save construction costs.

1 is a state diagram showing a solar panel angle adjustment device for a position change of the sun in a preferred embodiment of the present invention.
Figure 2 is an operational state diagram showing a module angle adjustment unit of the present invention.
Figure 3 is a perspective view of the operating state showing a solar panel angle adjustment device for position change of the present invention.
Figure 4 is a state of use of the handle of another embodiment showing a solar panel angle adjustment device for the position change of the sun of the present invention.
Figure 5 is a state diagram of a power tool of another embodiment showing a solar panel angle adjustment device for the position change of the sun of the present invention.
6, 7 is a state diagram showing a solar panel angle adjustment device for the position change of the sun in another embodiment of the present invention.

The present invention can be applied to various changes and may have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing each drawing, similar reference numerals are used for similar components.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from other components. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component. The term and / or includes a combination of a plurality of related described items or any one of a plurality of related described items.

When an element is said to be "connected" or "connected" to another component, it is understood that other components may be directly connected to or connected to the other component, but other components may exist in the middle. It should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that no other component exists in the middle.

The terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms “include” or “have” are intended to indicate that a feature, number, step, move, component, part, or combination thereof described in the specification exists, or that one or more other features or It should be understood that the existence or addition possibilities of numbers, steps, movements, components, parts or combinations thereof are not excluded in advance.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Hereinafter, the same reference numerals are used for the same components in the drawings, and duplicate descriptions for the same components are omitted.

In the solar panel angle adjusting device for position change of the sun shown in FIGS. 1 to 7 of the present invention, a plurality of solar panels are arranged and the first long axis 100 and the first long axis 100 formed in the center are fixed. A first panel mounting portion 150 comprising a first fixing racket 120 formed on the left and right sides and a first protrusion rod 110 fixed in a vertical direction to rotate the first long axis;

It is formed on the lower portion of the first panel mounting portion, a plurality of solar panels are arranged, the second long shaft 200 formed in the center and the second fixing rackets 220 and the second formed on the left and right sides fixing the second long shaft. A second panel mounting portion 250 made of a second projecting rod 210 fixed in a vertical direction to rotate the long axis; It is formed on the lower portion of the second panel mounting portion, a plurality of solar panels are arranged and a third fixing shaft 300 formed in the center and a third fixing racket 320 formed on the left and right sides of the fixing third fixing shaft 300. And a third panel mounting portion 350 made of a third projection rod 310 is fixed in the vertical direction to rotate the third long axis; A shanghai copper rod 160 formed by connecting the first, second and third protruding rods 110, 210 and 310 with an axial pin 170; A vertical frame and a horizontal frame are formed to fix and support the first, second, and third panel mounting portions, and connected to a central axis of the second panel mounting portion, so that the second panel mounting portion is rotated to change the angle to the vertical frame. Forming a fixed module angle adjustment unit 560,
The module angle adjustment unit 560 is connected to the second long axis of the second panel mounting portion driven member 290 is formed with an auxiliary rotating shaft 230 formed between the second fixing racket 220; The metal wire 440 connected to the auxiliary rotating shaft 230, the rotating drum 450 on which the metal wire is wound, and the main gear 470 and the main gear 470 formed on the rotating drum shaft 460 are engaged with each other. A drive body 460 including a drive gear 490 that is driven and is provided with a tool mounting tool 480 and a stopper 510 to lock and unlock the drive gear 490; The drive gear 490 having the tool mounting tool is formed by manually inserting a handle 510 into the tool mounting tool 480 or manually rotating a driving gear by inserting a power tool into the tool mounting tool 480. There is this.

The first panel mounting portion 150 is a plurality of solar panels are arranged and formed to be long and can increase or decrease the length of the installation depending on the installation location, the first long axis 100 formed in the lower center of the solar panel And a first fixing racket 120 formed on the left and right sides fixing the first long axis 100 and a first protruding rod 110 fixed in a vertical direction to rotate the first long axis.

The second panel mounting unit 250 has a plurality of solar panels are arranged and formed to increase or decrease the length of the installation depending on the installation location, the second long axis 200 formed in the lower center of the solar panel And a second fixing racket 220 formed on the left and right sides of the second long shaft 200 and a second protrusion rod 210 fixed in a vertical direction to rotate the second long shaft 200.

The third panel mounting portion 350 is a plurality of solar panels are arranged and formed to be long and can increase or decrease the length of the installation depending on the installation location, the third long axis 300 formed in the lower center of the solar panel And a third fixing rack 320 formed on the left and right fixing the third long axis 300 and a third protruding rod 310 fixed in a vertical direction to rotate the third long axis.

The first, second and third panel mounting portion 150 is formed to be installed on the ground or a structure, a rooftop, a building, etc., and the first, second and third panel mounting portion 150 is formed to be fixed to a vertical frame and a horizontal frame. Did.

Since the illuminance of light varies according to the position of the sun, a module angle adjusting unit 560 is formed to move the solar panel according to the illuminance, but to operate conveniently.

The module angle adjustment unit 560 is preferably formed so as to move any one of the first, second, and third panel mounting unit 150 and the other panel mounting unit is connected to form the angle to be adjusted at the same time.

The embodiment of the present invention is characterized in that the first, second and third panel mounting portions 150, 250 and 350 are interlocked by being mounted on the second panel mounting portion.

In an exemplary embodiment, a metal wire 440 is formed on the auxiliary rotating shaft by forming a driven body 290 having an auxiliary rotating shaft 230 formed between the second fixing rackets 220 and connected to the second axis of the second panel mounting portion. Fix one end of the

 The metal wire 440 connected to the auxiliary rotating shaft 230 and the rotating drum 450 on which the metal wire is wound, and the main gear 470 and the main gear 470 formed on the rotating drum shaft 460 The drive gear 490, which is driven in engagement and is formed with a tool mounting tool 480, is formed to be wound or released. In addition, the driving gear 490 is formed of a driving body 460 including a stopper 510 so that locking and unlocking are performed.

4 and 5, the drive gear 490 having a tool mounting tool is driven by manually inserting a handle 510 into the tool mounting tool 480 or driving a power tool through the tool mounting tool 480. The second panel mount is rotated by pulling the metal cable wound around the auxiliary rotating shaft of the driven body. At this time, the first, second, and third panel mounting portions 150 are rotated at the same time as the moving shafts 160 formed by connecting the first, second, and third protruding rods 110, 210, and 310 with the shaft pins 170 move at the same time. Fixing is done on. In addition, the stopper is fixed to the status quo to form a stationary state, but the lock bolt 260 can be tightened in the status quo for a double safety device.

As described above, when the angle is set or erected by adjusting the angle with the module angle adjusting unit 560, when the drive gear is rotated after pulling and releasing the stopper, there is a feature that it is formed so that the position is achieved by the load.

Another embodiment of the present invention shown in FIGS. 6 and 7 is formed to be adjustable by adding a panel mounting portion or forming a height adjusting portion when varying the height.

Between the first panel mounting portion 150 and the second panel mounting portion 250 was formed to adjust the length of the vertical frame 400 and the shandong copper rod 160 to adjust the height.

The vertical frame 400 forms an upper vertical frame 400-1 and a lower vertical frame 400-2, and the upper vertical frame 400-1 is formed with a plurality of mounting holes 400-3. The lower frame was fixed with a fixing bolt (400-4) and fixed with a fixing bolt (400-5) and a nut (400-6). The shandong copper rod (160) is the upper shandong copper rod (160-1) and the lower It is formed of Shanghai Dong Road (160-2), the upper Shanghai Dong Road (160-1), a plurality of mounting holes (160-3) and the upper Shanghai Dong Road (160-1) is fixed (160-4) It is characterized in that it is formed so as to adjust the length of the shandong copper rod 160 by being fixed by fastening with a fixing bolt 160-5 and a nut 160-6.

According to the characteristics of the structure as described above, there is a very useful feature that can be performed without separate disassembly and exchange when changing the height of each panel mounting portion.

100: first axis 110: first protrusion rod
120: 1st fixed racket 160: Shanghai East Road
210: second protrusion rod 220: second fixing racket
250: second panel mounting portion 260: lock bolt
350: third panel mounting portion
400: vertical frame 410: horizontal frame
450: drum 460: drum shaft
470: main gear 480: tool mounting
490: drive gear 560: module angle adjustment unit

Claims (3)

A plurality of photovoltaic panels are arranged and composed of a first long axis formed in the center, a first fixing racket formed on the left and right sides fixing the first long axis, and a first projecting rod fixed in a vertical direction to rotate the first long axis. A first panel mounting portion;
It is formed at the bottom of the first panel mounting portion, a plurality of solar panels are arranged, and a second fixing racket formed on the left and right sides to fix the second long axis and the second long axis formed in the center and the second long axis vertically to rotate. A second panel mounting portion made of a fixed second projection rod;
It is formed at the bottom of the second panel mounting portion, a plurality of solar panels are arranged, and a third fixing racket formed on the left and right fixing the third long axis and the third long axis formed in the center and the third long axis are vertically rotated. A third panel mounting portion made of a third projecting rod having a fixed direction; A shanghai copper rod formed by connecting the first, second and third protruding rods with an axial pin;
A vertical frame and a horizontal frame are formed to fix and support the first, second, and third panel mounting portions, and connected to a central axis of the second panel mounting portion, so that the second panel mounting portion is rotated to change the angle to the vertical frame. In the solar panel angle adjustment device for the position change of the sun consisting of a fixed module angle adjustment unit,
The module angle adjusting portion is connected to the second long axis of the second panel mounting portion driven member formed with an auxiliary rotating shaft formed between the second fixing racket; The metal wire connected to the auxiliary rotating shaft, the rotating drum wound with the metal wire, and the main gear formed on the rotating drum shaft and the main gear, which are driven in engagement with the main gear and the drive gear formed with a tool mounting so that the locking and unlocking of the drive gear are performed. A driving body including a stopper; The drive gear having the tool mounting tool is configured to rotate the driving gear manually by inserting a handle into the tool mounting tool or by manually inserting a power tool into the tool mounting tool.
The first and second panel mounting portions are formed to adjust the lengths of the vertical frame and the shandong copper rod so as to adjust the height of the height between the first panel mounting portion and the second panel mounting portion. The lower vertical frame is formed, and the upper vertical frame is formed with a plurality of mounting holes, and the lower frame is formed with fixing holes to fix it with fixing bolts and nuts, and the shandong copper rod is formed with the upper shandong copper rod and the lower shandong copper rod. A solar panel angle adjustment device for changing the position of the sun, characterized in that a plurality of mounting holes are formed on the upper and lower copper rods and fasteners are formed on the lower and upper copper rods to be fastened with a fixing bolt and a nut.
According to claim 1, The second panel mounting portion,
The position change of the sun, characterized in that the lock bolt formed at the end of the second protruding rod and the guide hole to which the lock bolt is fitted are formed to fix the rotation and the rotated state according to the guide hole with the lock bolt. Solar panel angle control device.
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