KR101639214B1 - Solar panel angle control device - Google Patents

Abstract

The present invention relates to a device to adjust an angle of a panel for solar power generation. In adjusting the angle of the solar power generation panel in response to a change in a solar location changing in real time; the device to adjust the angle of the panel for solar power generation has a simple composition, and is easily handled and used. A panel module (10) is fastened to a bracket (200) through a bolt, and the bracket (200) is fastened to a flat mount (308e) of a rotation member (308); the upper portion of a rotation member (308) is coupled to both supports (302) of a fixation plate (301) by means of a self axial hole (308a) and a second rotation axis (307); the rotation member (308) rotates with respect to the second rotation axis (307); and a lead screw (304) is fixated to a power conversion axis (306).

Description

[0001] SOLAR PANEL ANGLE CONTROL DEVICE [0002]

The present invention relates to an angle adjuster for an electric solar panel, and more particularly, to an angle adjuster for a solar panel for adjusting the angle of a solar panel, And more particularly, to a power generator angle control apparatus.

As is well known, the solar thermal power generation system is a system for generating electricity using natural sunlight or solar light (hereinafter referred to as a solar power generation system), and is being actively developed and utilized as a next generation alternative energy source because it uses pollution-free natural resources.

Solar power generation systems are installed on a large scale in large scale, or installed in a small scale such as a home or a building, and are utilized in real life. Thus, the power generation capacity of the solar power generation system varies greatly depending on the area of the solar battery power generation panel.

In particular, in a large-scale solar power generation system, it is common to install the angle of the solar panel in consideration of sufficient solar collecting efficiency in advance. However, in order to increase the efficiency of collecting sunlight, It is necessary to adjust the light collecting or collecting angle of the battery plate.

Especially, the general house does not consider the adoption of the photovoltaic power generation system from the time of construction, and the construction direction is difficult to receive the sunlight or solar heat, or the solar panel is installed in a difficult place There are many. In this case, it is necessary to adjust the angle of the battery plate for power generation efficiency.

In order to solve such a problem, various techniques for adjusting the converging angle of the solar panel in response to the change of the position of the sun have been developed.

For example, a number of techniques have been developed in the prior art relating to the adjustment of the angle of an electric panel for solar power generation, such as those disclosed in Japanese Patent Laid-Open Nos. 10-2009-0050687 and 10-2010-0064448.

The angle adjusting device of the solar panel disclosed in Japanese Patent Application Laid-Open No. 10-2009-0050687 includes a stationary frame fixed to the stationary structure and having a slot formed therein, a rotating frame supporting the solar cell plate and rotatably supported by the stationary frame, An arcuate frame having arcuate connecting ends opposite to each other with respect to a pivot axis of the pivot frame and formed with a plurality of engaging holes formed at regular intervals corresponding to the elongated holes and a fixing member penetrating through the elongated holes and engaging holes, There is a problem that the angle is changed only by the structure or altitude.

The solar panel rotation angle control device disclosed in Japanese Patent Application No. 10-0841961 includes a shaft support portion provided on an upper portion of a support, a rotation shaft rotatably mounted on the shaft support portion 10, a solar panel fixedly mounted on the rotation shaft, And a rotation angle adjusting member for rotating the rotation shaft by pushing or pulling an arm extending in a direction perpendicular to the rotation axis so as to adjust a rotation angle of the solar panel, wherein the rotation angle adjusting member is hinged to the end of the arm A guide portion that is screwed to the screw portion and is axially coupled to the support portion so as to be moved forward and backward as the screw portion rotates and a handle for rotating the screw portion; However, since the installation angle of the solar panel is vertical rotation, it can not rotate horizontally according to the position of the sun, There are less problems.

The solar panel structure having the inclination angle and the angle of rotation control device disclosed in the patent document 10-2010-0064448 includes a solar panel for solar power generation constructed by connecting a cell and a cell as many as necessary in series and in parallel, A solar cell module including a column for supporting the solar cell panel, a rotary shaft mounted on the column to be rotatable and fastened to the solar cell module, a rotary shaft installed on a part of the column, A first rotating motor for adjusting a rotation angle of the battery plate, and a plurality of cylinders coupled by a support shaft, wherein one cylinder is provided with a second rotating motor for converting the rotational motion of the second rotating motor into a linear motion, And a plurality of cylinders for transmitting linear motion to the solar battery panel through the linear motion guide shafts of the plurality of cylinders However, when the solar panel is moved vertically, the solar panel does not contribute to increase the efficiency of light collecting, but the installation cost is high, and the horizontal rotating device and the vertical rotating device are structurally weak.

As described above, the conventional solar panel angle regulating apparatus for solar power generation has a problem in that it is complicated in structure and difficult to handle, and is thus hardly adopted in most cases.

An object of the present invention is to provide an angle regulating device for a solar panel, which is simple in construction and easy to handle and use in adjusting the angle of the solar panel for the solar power generation in response to the change of the position of the sun.

SUMMARY OF THE INVENTION The object of the present invention is to provide an angle-

1. An angle adjuster for a solar panel,

A bracket mounted on a back surface of the battery module;

A fixing plate coupled to the upper surface of the pair of supports so as to be spaced apart and fixed to the bottom surface;

A handle coupled to a lead screw spirally coupled to a first rotation shaft pivotally coupled between the two supports;

A shaft having a bolt fastening hole for mounting the bracket and a shaft having a second rotation shaft piercingly coupled to the support rods so as to be in contact with the inner wall of the support between the support rods, A rotary member having a connection shaft pivotally coupled to the legs of the legs to prevent the ends of the leadscrews from being rotatably engaged and disengaged from each other, As shown in FIG.

The present invention is simple in construction, has a very low manufacturing cost and is excellent in durability, and can easily adjust the angle of the battery module by turning the handle.

Further, since the fixing plate can be installed at any place, the angle of the solar cell module can be easily adjusted in accordance with the change of the sun position even in the existing building.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view illustrating a state in which an angle regulating device for an electric solar panel according to the present invention is coupled to a solar panel for solar power generation,
FIG. 2 is a perspective view illustrating an apparatus for adjusting an angle of a solar panel according to the present invention,
FIG. 3 is a perspective view of the main part of the angle adjusting device shown in FIG. 1,
Fig. 4 is a cross-sectional view showing the main part illustrating the operation of the angle adjusting device for solar battery panel according to the present invention before / after the operation (Fig. 4 (a) / (b)).

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of an angle adjusting device for a solar panel according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a state where the angle adjusting device of the present invention is coupled to a solar panel for solar power generation, FIG. 2 is a perspective view illustrating an angle adjusting device for a solar panel according to the present invention, And FIG. 3 is an exploded perspective view of the main part of the angle adjusting device shown in FIG.

1 and 2, an apparatus for adjusting angle of an solar panel 100 according to the present invention includes a solar battery module 10 connected to the stationary plate 301 through a bracket 200 so as to be vertically rotated, A bracket 200 coupled to the back surface of the battery module 10, a fixing plate 301 fixed to the bottom surface (floor or building structure) by anchor bolts, And an angle adjusting unit 300 for adjusting the angle of the battery module 10.

The above-described battery module 10 is an aggregate having a plurality of cells (not shown in the figure) attached thereto for converting sunlight into electric energy, and the power generation capacity is increased or decreased according to the number of cells.

The solar panel module 10 for solar power generation is coupled to the angle adjuster 300 through a bracket 200 mounted on the rear surface thereof.

The bracket 200 is mounted on the back surface of the above-described battery module 10 and mounted on a mount of a rotating member 308, which will be described later, through a bolt 202.

The above-mentioned fixing plate 301 is a plate-like member fixed firmly to the floor surface through an anchor bolt (reference numerals not shown), and a pair of supports 302 are coupled to the upper surface.

The support base 302 vertically extends to a predetermined length so as to be positioned at a predetermined height and a first rotation shaft 305 and a second rotation shaft 307 are rotatably supported between the support brackets 302, Respectively.

The first rotation shaft 305 is formed with a through-hole female thread 305a. The lead screw 304 coupled to the handle 303 described later is spirally engaged with the female screw 305a.

The second rotary shaft 307 is provided to allow the rotary member 308 to rotate between the two supports 302. The second rotary shaft 307 penetrates the shaft hole 308a of the rotary member 308, And the ends are pivotally connected to the support base 203, respectively.

The handle 303 is coupled with a lead screw 304 having a predetermined length. The lead screw 304 is coupled to the first rotation shaft 306 so that the lead screw 304 can be reversed in the axial direction when the handle 303 is rotated.

The rotatable member 308 is pivotally coupled between the two support rods 302 through the second rotation shaft 307. The rotary member 308 includes a shaft hole 308a inserted through the second rotation shaft and a mount 308e and a leg 308b on which the bracket 200 is mounted.

The mount 308e has a flat surface, and a bolt fastening hole (not shown) is provided on the surface of the mount 308e.

2, reference numeral 203 denotes a bolt through-hole for fastening the bracket to the battery module, and reference numeral 204 denotes a bolt through-hole for fastening the bracket 200 to the mount 308e with the bolt 202.

The rotary member 308 has a pair of legs 308b separated from the other end of the mount 308e by a partial cutout 308c with respect to the shaft hole 308a. consist of.

A power switching shaft 306 is rotatably connected between the legs 308b as shown in FIG.

The end of the lead screw 304 is loosely engaged with the power conversion shaft 306 so that the lead screw 304 can be freely rotated. 3, reference numeral 304a denotes a nut that is fastened to the end of the lead screw 304 so that the lead screw 304 is not separated from the power conversion shaft 306. [

3, the power switching shaft 306 is engaged (see the Atr part in the figure) such that both ends thereof are not projected outside the outer wall of the leg 302b, so that the side surface of the rotating member 308 And is assembled so as to be in contact with the inner surface of the support base 302.

An operation example of the solar battery angle regulating apparatus of the present invention constructed as described above will be described with reference to FIG.

When the user rotates the handle 303 shown in Figs. 1 to 3, the rotating member 308 shown in Fig. 4 (a) rotates as the rotating member 308 shown in Fig. 4 (b) do.

That is, the lead screw 304 spirally coupled to the first rotating shaft 305 is moved forward / backward with respect to the first rotating shaft 305, and the linear motion of the lead screw 304 causes the end of the lead screw 304 To the power conversion shaft 306 coupled to the power conversion shaft.

At this time, the rotary member 308 rotates about the second rotary shaft 307. At this time, the power conversion shaft 306 coupled between the legs 308b corresponding to the change of the angle of the rotary member 308 in real- The forward / backward movement of the lead screw 304 is continuously switched by the rotational motion of the rotary member 308. [

The bracket 200 mounted on the mount 308e is rotated together with the rotation of the rotary member 308 so that the battery module 10 can be rotated at a desired angle.

In the meantime, since the load pressure of the battery module is applied from the battery module 10 to the handle 303, it is not transmitted to the handle 303 due to the spiral coupling between the first rotation shaft 305 and the lead screw 304, The angle of the battery module 10 is not changed unless the handle 303 is rotated.

In addition, the cut-out portion 308c provided between the legs 308b is formed so as to be deeper toward the shaft hole 308a at the depth of the cutout space, that is, at the end of the legs 308b, . In other words, it is preferable that the lead screw 304 does not interfere with the rotational movement of the rotary member 308.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Are included in the true meaning of the technical idea as intended by the present inventor.

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10: Solar panel module 100 for solar power generation:
200: Bracket 202: Bolt
301: Fixed plate
302: support base 303: handle
304: lead screw 305: first rotating shaft
305a: female thread 306: power conversion shaft
307: Second rotating shaft 308: Rotating member
308a: shaft hole 308b: bridge
308c: cut-out portion 308e: mount
200: Bracket

Claims (1)

In the known solar power generator panel (10), the angle of inclination of the battery module (10) is controlled by the forward or backward movement of the lead screw, which is a component of the angle adjusting means, In the angle adjusting device,
The battery module 10 is bolted to the bracket 200 and the bracket 200 is fixed to a flat mount 308e of a rotary member 308 which is a component of the angle adjusting unit 300, A fastening arrangement;
The rotary member 308 has a shaft hole 308a at its upper portion and a leg 308b at a lower portion with a cutout 308c interposed therebetween. And is rotatable,
An upper portion of the rotary member 308 is rotatably coupled between both supports 302 of the fixed plate 301 via a self-shaft hole 308e and a second rotary shaft 307;
A lead screw 304 having a handle 304 is fastened to the power switching shaft 306 located between the legs 308b of the rotary member 308 and is fastened to the lead screw 304 by forward or reverse rotation of the handle. The rotary member 308 is rotated about the second rotary shaft 307 while being advanced or retracted;
The lead screw 304 is fixed to the power conversion shaft 306 through a female screw 305a of a first rotation shaft 305 rotatably fixed between a pair of supports 302. [ For adjusting the angle of the battery.

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