KR200468300Y1 - an angle adjusting apparatus of a solar-cell module - Google Patents

Abstract

The purpose of the present invention is to simplify the structure by adjusting the angle of the photovoltaic module so that the incident angle of the solar light incident on the photovoltaic module is close to the vertical according to the altitude of the sun that changes with the season and the movement of the sun due to the rotation of the earth. The present invention provides a photovoltaic module angle adjuster that can be firmly supported and fixed to withstand external factors such as wind pressure.
This invention is the support member 110 is installed standing from the ground; A frame member 120 installed rotatably on an upper end of the support member 110 and on which a solar module 10 may be installed; An upper end is coupled to the frame member 120 by a first hinge 132 to rotate the frame member 120 to adjust an angle of the solar module 10 installed in the frame member 120, and a lower end thereof. An angle adjusting operation rod 130 installed to be inclined to move up and down along the support member 110; Elevating means (140) installed to elevate the lower end of the angle adjusting operation rod (130); And an upper end portion coupled to the frame member 120 by a third hinge 152 so as to support the frame member 120 angled by the elevating means 140 on the opposite side of the operation rod 130. It includes a support rod 150 is inclined so that the lower end is elevated along the support member 110.

Description

An angle adjusting apparatus of a solar-cell module

The present invention relates to an angle adjusting device of a solar module, and more particularly, it is possible to easily adjust the angle of the solar module corresponding to the height of the sun according to the season, the solar module that can increase the light collection efficiency of solar light It relates to an angle adjusting device of.

In general, a solar module refers to a device that converts solar energy into electrical energy. The solar module provides advantages such as pollution-free, noise-free, infinite supply energy. In addition, the photovoltaic module converts solar energy into electrical energy by a solar cell array in which a plurality of solar cells are arranged in parallel and in parallel through conductive ribbons and busbars. That is, solar energy transmitted through the low iron tempered glass seated on the upper portion of the solar cell array is converted into electrical energy.

This solar module tracks the position of the sun by power or device operation so that the sun's direct sunlight can enter the front of the solar power generation module vertically for high efficiency of power generation. There is a semi-fixed type whose position changes up and down according to the altitude of the camera, and a fixed type whose position is fixed regardless of the sun's altitude.

The tracking device of the tracking photovoltaic module is a device for moving the light collecting plate to increase the light collecting ability while tracking the moving sun. The tracking method of tracking device is largely program tracking and sensor tracking. Program tracking is a tracking method that rotates the light collecting plate by inputting the movement of the sun due to the rotation and revolution of the earth in the program in advance. On the other hand, the sensor tracking detects the movement of the sun with a sensor to control the direction of the light collecting plate, and various improvements have been made in accordance with the development of various related element technologies. Tracking device technology includes solar position detection method, tracking member, tracking driving method, driving power and the like.

However, as described above, the conventional position tracking device for sunlight has a problem in that its structure is very complicated and is configured to automatically track the position of sunlight, so that a relatively fixed position is not firmly fixed.

Domestic utility model registration number 20-0297771, solar tracking device.

The purpose of the present invention is to improve the power generation efficiency by adjusting the angle of the solar module so that the angle of incidence of the sunlight incident on the solar module is close to the vertical according to the altitude of the sun that changes with the season and the movement of the sun due to the rotation of the earth. In addition, the present invention provides a photovoltaic module angle adjusting device that can be fixed to be able to support external factors such as wind pressure by allowing the structure to be simple and firmly supported.

The present invention for achieving the above object is installed support member 110 to stand from the ground; A frame member 120 which is axially coupled to the upper end of the support member 110 to be rotatable and on which the solar module 10 can be installed; An upper end is coupled to the frame member 120 by a first hinge 132 to rotate the frame member 120 to adjust an angle of the solar module 10 installed in the frame member 120, and a lower end thereof. An angle adjusting operation rod 130 installed to be inclined to move up and down along the support member 110; Elevating means (140) installed to elevate the lower end of the angle adjusting operation rod (130); And an upper end portion coupled to the frame member 120 by a third hinge 152 so as to support the frame member 120 angled by the elevating means 140 on the opposite side of the operation rod 130. It includes a support rod 150 is inclined so that the lower end is elevated along the support member 110, the support rod 150; A protruding piece 112 is formed to protrude to one side of the support member 110, and the protruding piece 112 has a long hole 112a formed therein, and a lower end portion of the support rod 150 is formed in the long hole 112a. Is coupled to the hinge 154 is configured to support the frame member 120 while the lower end of the support rod 150 is moved along the long hole (112a) corresponding to the angle of the frame member 120, Lifting means 140 is; Upper and lower brackets 142a and 142b spaced apart from each other at a predetermined interval on one side of the support member 110; Supported by the upper and lower brackets (142a, 142b) is installed to be rotated in place, the ball screw 144 has a spiral portion formed on the outer peripheral surface; The lower end of the operating rod 130 is screwed to the ball screw 144 and the outer end of the angle adjusting operation rod 130 is coupled to the second hinge 134 while being lifted by the rotation of the ball screw. Elevating bracket 146 for elevating; And a motor 148 installed to rotate the ball screw 144 so that the lifting bracket 146 can be elevated.

The solar module 10 is; And a plurality of unit light collecting plates 12 for condensing sunlight, wherein the unit light collecting plates 12 are respectively installed on the upper portion of the frame member 120, and the frame members 120 are arranged to form a plurality of rows. The drive shaft 160 is installed to be rotated by the motor 148 to one side of the frame member 120 corresponding to a plurality of rows, and the ball screw 144 may be rotated by the rotational force of the drive shaft 160. A driven shaft 162 is provided to connect the drive shaft 160 and the ball screw 144, and a connection portion between the drive shaft 160 and the driven shaft 162 and the driven shaft 162 and the ball screw 144. The bevel gears 164 are respectively installed at the connection portions of the c) so that the frame members 120 constituting a plurality of rows by the rotational force of the drive shaft 160 are angled at the same time.

The frame member 120 is; It is arranged to form a plurality of rows in a state inclined to one side in a plan view, the drive shaft 160 is divided into a plurality to the universal joint 166 to transmit the rotational force corresponding to the inclination of the frame member 120 It is preferred to be connected.

On the outer circumferential surface of the support member 110, a scale 111 that can check the angle of the solar module 10 according to the season is displayed, it is preferable to be able to check the lifting position of the lifting bracket 146. .

The present invention makes it easy to adjust the angle of the solar module by rotating the motor so that the angle of incidence of the sunlight incident on the solar module is close to the vertical according to the altitude of the sun that changes with the season and the movement of the sun by the rotation of the earth. There is an effect to improve the power generation efficiency.

In addition, the present invention is simple in structure and by supporting the angle adjusting operation rod and the support rod in a symmetrical state in the lower portion of the frame member, there is an effect that can be fixed to withstand external factors such as wind pressure.

1 is a view showing an angle adjusting device of a solar module according to the present invention,
2 is a view showing the configuration of the lifting means provided in the angle adjusting device of the solar module according to the present invention,
3 is a view showing a state in which the angle is adjusted by the angle adjusting device of the solar module according to the present invention,
4 is a view showing a state in which the unit light collecting plate to which the angle adjusting device of the solar module according to the present invention is arranged to form a plurality of rows in plan view,
FIG. 5 is a view showing the display of FIG. 4 from one side; FIG.
FIG. 6 is a view showing a modified example of the display of FIG. 4,
FIG. 7 is an enlarged view of a portion “A” of FIG. 6.
FIG. 8 is an enlarged view of a portion “B” of FIG. 7.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 to 3 is an angle adjusting device of the solar module according to the present invention is shown.

As shown, the angle adjusting device of the solar module of the present invention includes a support member 110 to stand on the ground. The support member 110 is preferably installed at a predetermined interval along the longitudinal direction when the solar module 10 is formed long along the longitudinal direction.

The frame member 120 is rotatably installed at the upper end of the support member 110 as described above, and the solar module 10 for converting solar energy into electrical energy is installed at the upper portion of the frame member 120.

In addition, the frame member 120 in which the solar module 10 is installed is configured to rotate by a predetermined angle, thereby adjusting the angle of the solar module 10. That is, an angle adjusting device is installed to adjust the angle of the frame member 120 so that direct sunlight of the sun may be incident perpendicularly to the solar module 10 according to the season.

Such an angle adjusting device is an elevating means 140 for elevating the lower end of the angle adjustment operation rod 130 and the support rod 150 and the angle adjustment operation rod 130 installed in the lower portion of the frame member 120. Is done.

The angle adjustment operation rod 130 is installed to form a predetermined slope so that the upper end is coupled to the frame member 120 by the first hinge 132, the lower end is elevated along the support member 110, the angle adjustment operation The lower end of the rod 130 is configured to be elevated by the lifting means 140.

The elevating means 140, the upper and lower brackets (142a, 142b) is installed on one side of the support member 110 to be spaced apart at a predetermined interval, is supported by the upper and lower brackets (142a, 142b) to rotate in place The ball screw 144 is installed.

In addition, the lifting screw 146 is installed on the ball screw 144, the lifting bracket 146 is operated to be elevated by the rotation of the ball screw 144 in place. That is, the lifting bracket 146 is screwed to the ball screw 144 with a nut 147, and the lower end of the angle adjusting operation rod 130 is coupled to the ball screw 144 by a second hinge 134. The lifting bracket 146 is lifted by the in-situ rotation of 144 to raise and lower the lower end of the operation rod 130.

In addition, a motor 148 is installed to rotate the ball screw 144 to elevate the elevating bracket 146. The ball screw 144 is rotated in place by the rotation of the motor 148, and the lifting bracket 146 is lifted while the nut 147 is lifted by the ball screw 144 in place.

As such, when the lifting bracket 146 is elevated, the lower end of the angle adjusting operation rod 130 is elevated, and the upper end of the operation rod 130 is coupled to the first hinge 132 so that the frame member 120 is provided. You can adjust the angle.

At this time, it is preferable that a scale 111 to check the angle of the solar module 10 according to the season is displayed on the outer circumferential surface of the support member 110 so that the lifting position of the lifting bracket 146 can be confirmed. By confirming that the lifting bracket 146 is positioned on the scale 111, the angle according to the season can be easily adjusted.

In addition, when the lower end of the angle adjustment operation rod 130 is elevated by the elevating means 140 to adjust the angle of the frame member 120, the angle adjustment frame member 120 to the operation rod 130 The support rod 150 is installed to support from the opposite side of the.

The support rod 150 is installed to have a predetermined slope so that the upper end is coupled to the frame member 120 by the third hinge 152 and the lower end is elevated along the support member 110. The support rod 150 may be installed in a symmetrical state with the operation rod 130 to support the frame member 120 in a stable and stable state.

The support rod 150 is formed such that the protruding piece 112 protrudes toward one side of the support member 110, and the protruding piece 112 is formed with a long hole 112a and is supported by the long hole 112a. The lower end of the rod 150 is coupled to the fourth hinge 154 so that the lower end of the support rod 150 moves along the long hole 112a to correspond to the angle of the frame member 120. It is configured to support the.

4 to 8 are views showing a state in which the unit light collecting plate to which the angle adjusting device of the solar module according to the present invention is arranged in a plurality of rows in plan view.

As shown, the solar module 10 includes a plurality of unit light collecting plates 12 for condensing sunlight, and the unit light collecting plates 12 are respectively installed on the upper portion of the frame member 120.

At this time, the frame member 120 is arranged to form a plurality of rows, the drive shaft 160 is installed to be rotated by the motor 148 to one side of the frame member 120 corresponding to the plurality of rows.

In addition, a driven shaft 162 is provided to connect the drive shaft 160 and the ball screw 144 to rotate the ball screw 144 by the rotational force of the drive shaft 160, the drive shaft 160 And a bevel gear 164 is installed at the connecting portion of the driven shaft 162 and the connecting shaft of the driven shaft 162 and the ball screw 144 to form a plurality of rows by the rotational force of the drive shaft 160. Allow 120 to be angled simultaneously.

On the other hand, the frame member 120 in which the unit light collecting plate 12 is installed is arranged in parallel to form a plurality of rows in a planar view as shown in Figure 4, or is arranged in one side as viewed in the plane as shown in FIG. Can be arranged to form a plurality of rows in the photo state.

At this time, when the frame member 120 is installed to be parallel to the plane as shown in Figure 4, the drive shaft 160 may be installed to one drive shaft to transmit the rotational force to the bevel gear 164, shown in Figure 6 When installed in a state inclined to one side in a plan view, the drive shaft 160 is divided into a plurality is installed to be connected to the universal joint 166 to transmit the rotational force corresponding to the inclination of the frame member 120 It is preferable to be.

As such, when the frame member 120 is installed to form a plurality of rows, and the unit light collecting plates 12 are adjusted at a predetermined angle according to the season, when the frame member 120 rotates only the drive shaft 160, the drive shaft The rotation of the 160 may rotate the ball screw 144 through the driven shaft 162 by the bevel gear 164 to simultaneously control the angle of the frame member 120 installed in a plurality of rows.

According to the present invention, it is possible to easily adjust the angle of the frame member 120, the solar module 10 is installed by the rotation of the motor 148 that the angle of incidence of sunlight varies according to the season, and also the adjusted state By operating the angle adjustment operation rod 130 and the support rod 150 inclined at a predetermined angle in a form symmetrical with each other, it can be supported in a solid state.

110-Support member 120-Frame member
130-working rod for angle adjustment 140-lifting means
142a, 142b-Bracket 144-Ball Screw
146-Lifting Bracket 148-Motor
150-support rod 160-drive shaft
162-driven shaft 164-bevel gear

Claims (4)

A support member 110 installed to stand up from the ground;
A frame member 120 which is axially coupled to the upper end of the support member 110 to be rotatable and on which the solar module 10 can be installed;
An upper end is coupled to the frame member 120 by a first hinge 132 to rotate the frame member 120 to adjust an angle of the solar module 10 installed in the frame member 120, and a lower end thereof. An angle adjusting operation rod 130 installed to be inclined to move up and down along the support member 110;
Elevating means (140) installed to elevate the lower end of the angle adjusting operation rod (130); And
The upper end portion is coupled to the frame member 120 by a third hinge 152 so as to support the frame member 120 angled by the elevating means 140 on the opposite side of the operation rod 130, and the lower end portion. It includes a support rod 150 installed inclined so as to be elevated along the support member 110,
The support rod 150 is;
A protruding piece 112 is formed to protrude to one side of the support member 110, and the protruding piece 112 has a long hole 112a formed therein, and a lower end portion of the support rod 150 is formed in the long hole 112a. Is coupled to the hinge 154 is configured to support the frame member 120 while the lower end of the support rod 150 is moved along the long hole (112a) corresponding to the angle that the frame member 120 is adjusted ,
The lifting means 140 is;
Upper and lower brackets 142a and 142b spaced apart from each other at a predetermined interval on one side of the support member 110;
Supported by the upper and lower brackets (142a, 142b) is installed to be rotated in place, the ball screw 144 has a spiral portion formed on the outer peripheral surface;
The lower end of the operating rod 130 is screwed to the ball screw 144 and the outer end of the angle adjusting operation rod 130 is coupled to the second hinge 134 while being lifted by the rotation of the ball screw. Elevating bracket 146 for elevating; And
And a motor (148) installed to rotate the ball screw (144) so that the lifting bracket (146) can be elevated.
The method of claim 1,
The solar module 10 is;
Comprising a plurality of unit light collecting plate 12 for condensing sunlight, the unit light collecting plate 12 are respectively installed on the upper portion of the frame member 120,
The frame member 120 is arranged to form a plurality of rows, the drive shaft 160 is installed to be rotated by the motor 148 to one side of the frame member 120 corresponding to the plurality of rows,
A driven shaft 162 is installed to connect the drive shaft 160 and the ball screw 144 to rotate the ball screw 144 by the rotational force of the drive shaft 160,
Bevel gears 164 are installed at the connection portions of the drive shaft 160 and the driven shaft 162 and the connection portions of the driven shaft 162 and the ball screw 144, respectively, and are driven by the rotational force of the drive shaft 160. Frame member 120 of the solar module, characterized in that the angle is adjusted at the same time to adjust the angle.
The method of claim 2,
The frame member 120 is;
Arranged to form a plurality of rows in a state inclined to one side in a plan view,
The drive shaft 160 is divided into a plurality of angle control device of the solar module, characterized in that connected to the universal joint 166 to transmit the rotational force corresponding to the inclination of the frame member (120).
The method of claim 1,
On the outer circumferential surface of the support member 110,
Scales 111 to check the angle of the solar module 10 according to the season is displayed, the angle adjustment device of the solar module, characterized in that it is possible to check the lifting position of the lifting bracket (146).

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