KR101594736B1 - Angle adjustment - Google Patents

Abstract

The present invention relates to an angle adjustment device for a solar photovoltaic power generation module, which is, more specifically, an angle adjustment device for the solar photovoltaic power generation module which allows efficient solar light incidence by freely changing the rotation angle of the solar photovoltaic power generation module. The present invention may comprise a support frame, comprising a support member which has an upward convex shape and is spaced with constant intervals while parallelly arranged in transverse direction, a central horizontal member which connects a plurality of support members in the transverse direction respectively, at both sides at a constant height of the support member, a fixation channel which has the upward convex shape and has a longitudinal opening and is coupled to the upper part of the central horizontal member, a gear which is coupled in a way capable of rotating by a shaft inside the fixation channel, and a motor which is coupled to the shaft of the gear and rotates the shaft; an arch-shaped frame which is formed by bending a steel pipe into a semi-circle, and has a rail of a certain length, which engages the gear for a certain length, located at both corresponding sides of an upper surface, and has its end part inserted to the fixation channel of the support frame so that the rail and the gear are coupled; and an angle adjustment frame which is in a frame shape of a certain size to fix the solar photovoltaic power generation module to the upper part, and is coupled in a way that the lower part is supported by the upper part of the arch-shaped frame, and has a central part of the longitudinal lower part coupled in a way that free rotation is possible at the upper part of an upper horizontal member and the support frame.

Description

[0001] Angle adjustment of a PV module [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an angle adjusting device for a solar power generating module, and more particularly, to an angle adjusting device for a solar power generating module that allows an efficient solar light incident by controlling a rotation angle of the solar power generating module.

Solar home systems, solar power generators, and solar photovoltaic modules are now widely used as solar alternative energy systems. In order to increase the power generation efficiency of such a solar power generation module, a solar cell is required to be changed in position by changing the position of the sun The angle of incidence of the solar light is changed. Therefore, it is necessary to change the angle of the solar module.

As a background of the present invention, there is a patent registration No. 1438927 entitled " Solar Module Angle Adjusting Device "(Patent Document 1). In the above background art, a solar module angle adjusting device including a solar module, comprising: a mount for fixing and mounting the solar module; A plurality of angular adjustment units coupled to the cradle and rotating 360 degrees in the x and y axis directions to adjust the angle of the solar module; And a bracket coupled to the angle adjuster to support the solar module and adjust the height in the z-axis direction; A motor unit capable of adjusting a height of the support member and an angle of the angle adjusting unit; And a control unit for controlling the motor unit, wherein the control unit analyzes the azimuthal change of sunlight to control the motor unit so that the solar light and the solar module are perpendicular to each other, and the support unit is divided into an upper portion and a lower portion A slide guide member is formed at one side of the upper portion and a slide guide groove is formed at the lower end portion for inserting the slide guide member so that the support base is adjustable in height by a sliding method, And the part is a ball joint provided at an end of the upper part.

However, since the background art is a method of adjusting the height, there is a problem that the upper solar module is not stably fixed.

Patent No. 1438927 entitled "Photovoltaic Module Angle Adjustment Device"

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a solar battery module capable of maintaining the angle of the solar power generation module in a direction capable of maximizing power generation efficiency and maintaining the stability thereof in accordance with the altitude and incidence angle of the sun, And to provide an angle adjusting device for a solar cell module.

The present invention relates to a support structure comprising a support member configured to be parallel to each other at regular intervals in the lateral direction in a convex ∩ shape having an upward convex shape, a central horizontal member for horizontally connecting a plurality of support members to both sides of a certain height of the support member, Shaped fixed channel coupled to the upper portion of the fixed channel, a gear rotatably coupled to the inside of the fixed channel by an axis, and a gear formed on one side of the middle of the support member, A support frame made of a motor for driving the motor; An arcuate frame which is formed by bending a steel pipe into a semicircular shape and has rails having a predetermined length corresponding to the gears at a corresponding length on both sides of the upper surface thereof and inserting the end portions into the fixed channels of the support frame, and; A frame having a predetermined size for fixing the solar module to an upper portion thereof, the lower portion being coupled to be supported by the upper portion of the arched frame, the lower portion of the vertical lower portion being rotatably coupled with the upper portion of the upper horizontal member, And a control frame,

In the interior of the fixed channel into which the arched frame is inserted, a rotatable roller is coupled to facilitate the movement of the lower portion of the arched frame,

The fixed channels are formed at regular intervals in the transverse direction of the central horizontal member, the axes of the gears formed for each of the central horizontal members are integrally formed and rotated at the same time,

The fixed tooth is fixedly coupled to the outer circumferential surface of the fixed channel at the outer circumferential surface of the fixed channel so as to be movable along the longitudinal direction of the shaft in the fixed channel direction, and the fixed protrusion is formed on the outer surface of the fixed channel, And a fixed top is fixed to the fixing protrusion by pressing the fixed tooth by moving the handle to fix the fixing saw to the fixing protrusion, ,

And the arcuate frame is divided into a plurality of segments.

The angle adjusting device of the solar power generating module of the present invention is capable of adjusting the angle of the solar power generating module in a direction in which the maximum power generation efficiency can be achieved according to the altitude and the incident angle of the sun, There is a useful effect.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a side view of an angle adjusting device of a solar power generating module according to the present invention.
2 is a front view of the angle adjusting device of the solar power generating module of the present invention.
3 is an operational state view of the angle adjusting device of the solar power generating module according to the present invention.
4 is a perspective view of a main part of the angle adjusting device of the solar power generating module of the present invention.
FIG. 5 is a front view and a side view of FIG. 4; FIG.
6 is a view showing an operating state of the handle in the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

Hereinafter, the technical structure of the present invention will be described in detail with reference to the preferred embodiments.

FIG. 1 is a side view of the angle adjusting device of the solar power generating module of the present invention, FIG. 2 is a front view of the angle adjusting device of the solar power generating module of the present invention, FIG. 5 is a front view and a side view of FIG. 4, and FIG. 6 is an exploded perspective view of the operation state of the handle in the present invention. Fig.

As shown in FIGS. 1 and 2, the angle adjusting device of the photovoltaic module of the present invention includes a support frame 10 fixed to a ground or a fixed block or the like, And an angle adjusting frame 30 coupled to the upper portion of the arched frame 20 to adjust the angle of the solar power generation module S.

The support frame 10 includes a support member 11 configured to be parallel to each other at regular intervals in the transverse direction in the form of a convex upward convex shape and a plurality of support members 11 on both sides of a certain height of the support member 11, Shaped fixed channel 13 connected to the upper part of the central horizontal member 12 and opened in the longitudinal direction and a fixed channel 13 connected to the shaft 141 in the fixed channel 13, A motor 15 that rotates the shaft 141 by engaging with the shaft 141 of the gear 14 formed at one side of the longitudinally opposite sides of the support member 11; And an upper horizontal member 16 connecting the upper ends of the support members 11 in the lateral direction.

The support member 11 may be formed by bending a steel pipe or the like in an arch shape having a convex shape at the upper end and a flange having a through hole through which a separate bolt hole is formed so as to facilitate coupling with both the concrete block and the foundation structure.

The supporting member 11 is fixed to the bottom of the base structure so that the arched frame 20 can rotate. As shown in FIG. 2, the supporting member 11 can be formed in a plurality of sections at regular intervals in the lateral direction.

The number and size of the support member 11 can be determined depending on the size and the number of the solar modules S, because the solar module S is stably supported.

The plurality of support members 11 are coupled to each other by a central horizontal member 12 and an upper horizontal member 16, which are made of steel pipes or the like.

The upper horizontal member 16 may be coupled in the lateral direction at the upper end of the support member 11 to integrally couple a plurality of support members 11 and may be joined by various methods such as welding or bolting.

The center horizontal member 12 may be coupled in a horizontal direction at a certain height of the support member 11 to integrally couple a plurality of support members 11 and may be joined by various methods such as welding or bolting. At this time, a certain portion of the support member 11 to which the center horizontal member 12 is coupled may be formed in a straight line in order to facilitate the engagement of the center horizontal member 12 and to make the angle of engagement constant.

Shaped fixed channel 13 is coupled to the upper part of the middle horizontal member 12 and is coupled to the middle horizontal member 12 by various methods such as welding such that the opening passes through in the longitudinal direction.

A gear 14 is rotatably coupled to the fixed channel 13 by a shaft 141.

The shaft 141 is coupled to rotate in the transverse direction within the fixed channel 13 and the gear 14 is inserted into the arcuate frame 20 so that a certain space is formed in the lower part.

The gears 14 and the rails 21 of the arcuate frame 20 are engaged with the rotation of the gears 14 so that the arcuate frame 20 to which the rails 21 are coupled is moved in a correspondingly different shape such as a pinion and a rack .

The fixed channels 13 may be formed at regular intervals in the transverse direction of the central horizontal member 12. At this time, the axes 141 of the gears 14 formed for each of the fixed channels 13 of the central horizontal member 12 Can be integrally formed and rotated at the same time.

Such a gear 14 is coupled to the shaft 141 of the gear 14 to constitute the motor 15 to rotate the shaft 141 as shown in Fig.

3, the gear 14 is rotated by the rotation of the motor 15, and the arched frame 20 to which the rail 21 engaged with the gear 14 is engaged is moved.

The arched frame 20 is formed by bending a steel pipe into a semicircular shape, and both end portions are inserted into the fixing channel 13 of the support frame 10, respectively.

The arcuate frame 20 has rails 21 of a predetermined length corresponding to the gears 14 on both sides corresponding to the gears 14 of the upper surface and having arcuate frames 20 Can be moved while rotating about the lower portion of the angle adjusting frame 30.

At this time, the rotatable roller 23 can be coupled to the inside of the fixed channel 13 into which the arched frame 20 is inserted so that the lower portion of the arched frame 20 can be easily moved. The roller 23 is rotated at the same time when the arcuate frame 20 is moved by the rotation of the gear 14 in the fixed channel 13 to facilitate the movement while supporting the lower portion of the arcuate frame 20 .

The arcuate frame 20 may be integrally formed in a semicircular shape so that both sides of the arcuate frame 20 are inserted into the fixing channels 13 on both sides of the support member 11 and are engaged with the gears 14 to engage with the rails 21 The arcuate frame 20 may be divided into a plurality of segments and may be separately engaged to facilitate the engagement of the support members 11 with the fixed channels 13 on both sides.

The angle regulating frame 30 is formed in a frame shape having a predetermined size to fix the solar power generation module S on the upper portion thereof and is coupled so that the lower portion thereof is supported by the upper portion of the arched frame 20, And is rotatably coupled at the top of the upper horizontal member 16 of the frame 10.

In other words, a separate rotary frame 31 may be formed at a longitudinally intermediate portion of the angle adjusting frame 30 at regular intervals in the horizontal direction, The rotary frame 31 is coupled to the upper fixed frame 32 by a shaft member 33 such as a bolt or a pin rotatably so that the arcuate frame 20 can be engaged with the gear 14 so that the angle adjusting frame 30 coupled to the upper portion of the arched frame 20 adjusts the angle in accordance with the irradiation angle of sunlight.

The upper fixing frame 32 is provided at a central portion of the supporting frame 10 and has the same distance at the point where the extending line directly below the fixing frame 32 and the weakening lines meet at both lower portions of the supporting frame 10.

In this way, the fixed frame 32 is provided at the central portion of the supporting frame 10, so that the weight load for supporting the angle adjusting frame 30 is divided by the fixed frame 32 to increase the supporting force of the supporting frame 10, So that the movement of the arched frame 20 is facilitated.

In the angle adjusting device of the present invention as described above, the arched frame 20 is fixed to the support frame 10 and rotated. At this time, the gear 14 and the rail 21 are engaged with each other, And a separate knob 40 may be configured as shown in FIGS. 3 to 6 to facilitate fixing.

That is, the fixed teeth 142 are fixedly coupled to the outer circumferential surface of the shaft 141 on the outer side of the fixed channel 13 so as to be movable along the longitudinal direction of the shaft 141 in the direction of the fixed channel 13. Although the fixed teeth 142 are not shown, grooves are formed in the shaft 141 in the longitudinal direction and the fixing bolts are coupled to the fixed teeth 142 so that the fixing bolts are drawn into the grooves of the shaft 141 at a certain depth It is possible to move along the groove.

Thus, the fixed teeth 142 can be spaced a certain distance from the outer surface of the fixed channel 13 or by moving along the axis 141.

The fixed protrusions 131 protrude from the outer surface of the fixed channel 13 to correspond to the fixed teeth 142 so that when the fixed teeth 142 are brought into contact with the outer surface of the fixed channel 13, The toothed portion 142 is engaged with the fixing protrusion 131 so that the shaft 141 is no longer rotated so that the movement of the arched frame 20 is stopped and fixed.

In order to facilitate the movement of the fixed teeth 142, a lower end portion is fixed to one side of the center horizontal member 12 on the side where the fixed teeth 142 are formed, and the lower end portion is moved in the left- 6, the handle 40 can be moved to press the fixed tooth 142 to fix the fixed tooth 142 to the fixing protrusion 131, When the fixed teeth 142 are separated from each other, the handle 40 is positioned between the fixed teeth 142 and the fixed channel 13, and the fixed teeth 142 are pushed outward again.

The angle adjusting device of the solar power generating module of the present invention can adjust the angle of the solar cell module in the direction of maximum power generation efficiency according to the altitude and incidence angle of the sun which changes according to the position, There is a very useful effect.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: support frame 11: support member
12: central horizontal member 13: fixed channel
14: Gear 15: Motor
16: upper horizontal member 20: arched frame
21: Rail 30: Angle adjustment frame
S: PV module

Claims (5)

(11) formed in parallel to each other at regular intervals in the transverse direction in a convex ∩ shape, and a central horizontal portion (11) horizontally connecting a plurality of support members (11) on both sides of a certain height of the support member Shaped fixed channel 13 coupled to the upper portion of the central horizontal member 12 and opened in the longitudinal direction and a fixed channel 13 fixed to the fixed channel 13 by a shaft A motor 15 that rotates the shaft 141 by engaging with the shaft 141 of the gear 14 constituted on one side of the longitudinally opposite sides of the support member 11; And an upper horizontal member (16) for connecting upper ends of the upper horizontal member (16) in the horizontal direction;
The steel pipe is formed by bending in a semicircular shape and has a rail 21 having a predetermined length corresponding to the gear 14 at a corresponding length on both sides of the upper surface thereof and having an end fixed to the fixed channel 13 of the support frame 10 An arcuate frame (20) for inserting the rail (21) into engagement with the gear (14);
Shaped frame 20 in such a manner that the solar power generating module S is fixed to the upper portion thereof and the lower portion thereof is supported to be supported by the upper portion of the arched frame 20, And an angle adjusting frame (30) rotatably coupled at an upper portion of the member (16)
A rotatable roller 23 is coupled to the inside of the fixed channel 13 into which the arched frame 20 is inserted so that the rotatable roller 23 can be easily moved to support the lower portion of the arched frame 20,
The fixed channels 13 are formed at regular intervals in the lateral direction of the central horizontal member 12,
The shaft 141 of the gears 14 formed for each of the central horizontal members 12 is integrally formed and rotated at the same time,
The fixed teeth 142 are fixedly coupled to the outer circumferential surface of the outer shaft 141 of the fixed channel 13 so as to be movable along the longitudinal direction of the shaft 141 in the direction of the fixed channel 13,
On the outer surface of the fixed channel 13, a fixing protrusion 131 protrudes to correspond to the fixed tooth 142,
A handle 40 is fixed to one side of the center horizontal member 12 on the side where the fixed teeth 142 are formed and has a lower end fixed to the lower end of the horizontal member 12 and movable in the left-
The handle 40 is moved to press the fixed tooth 142 to fix the fixed tooth 142 to the fixed protrusion 131,
Wherein the arcuate frame (20) is divided into a plurality of segments. delete delete delete delete

Images