KR200462861Y1 - Easily operating manual solar cell panel supporting apparatus - Google Patents

Abstract

The present invention is easy to adjust the condensing angle without applying a separate reversal prevention device by applying a screw jack method, the operation to prevent the solar panel is randomly rotated or damaged by slipping in strong wind, etc. The purpose is to provide a passive solar panel support device with high energy efficiency compared to easy investment.
Easy to operate manual solar panel support device according to the present invention for achieving this object is composed of a plurality of supports to support the frame, each support, the main support and the auxiliary support at regular intervals on the upper surface A provided base; A rotation support member mounted at the center of the vertical frame of the frame and rotatably installed on the main support; And one end hinged to the vertical frame so as to be positioned above the rotary support member, and the other end is hinged to the auxiliary support and configured to operate as one rotary lever.

Description

EASY OPERATING MANUAL SOLAR CELL PANEL SUPPORTING APPARATUS}

The present invention relates to a manual solar panel support device that is easy to operate, and more particularly, to a manual solar panel support device that employs a screw jack method, which is simple in structure, easy to operate and easily overcomes wind loads. It is about.

Generally, solar panels are used to convert energy from the sun into energy. In particular, the solar panel requires a support device to increase the light condensing effect by adjusting the irradiation angle of the solar panel according to the different height of the south middle altitude according to the season.

Korean Patent No. 10-0727283 has been published as such a support device. This support device is configured to adjust the light collecting angle by using the rack and pinion. As another device, Korean Patent No. 10-0826954 has been published. The device allows the solar module to rotate from east to west while keeping it 90 ° towards the sun.

However, this conventional support device has the following problems.

1) The solar tracking system requires a lot of time and effort for maintenance because of its complex configuration, high installation cost, low energy production efficiency, and frequent breakdowns.

2) Since the manual system adjusts the rotation angle at the center part, the solar support frame is not only damaged well in case of strong wind, but also difficult to control the rotation angle.

3) When solar panels are manufactured in a large scale, the distribution of the force required for the operation is focused on one side, which makes it difficult to control the light collecting angle and requires a separate reversal prevention device (brake or stopper, etc.).

The present invention has been devised in view of this point, and by applying the screw jack method, it is possible to easily adjust the condensing angle without providing a separate reversal prevention means, and the solar panel can be arbitrarily rotated or damaged due to slipping in strong wind. It is an object of the present invention to provide an energy-efficient passive solar panel support device that is easy to operate so that it can be prevented.

Easy to operate manual solar panel support device according to the present invention for achieving this object is composed of a plurality of supports to support the frame, each support, the main support and the auxiliary support at regular intervals on the upper surface A provided base; A rotation support member mounted at the center of the vertical frame of the frame and rotatably installed on the main support; And one end hinged to the vertical frame so as to be positioned above the rotary support member, and the other end is hinged to the auxiliary support and configured to operate as one rotary lever.

In particular, the screw jack means, each end portion in a quadrangular form is connected to each other by a hinge connection portion, the hinge portion facing each other hinged to the vertical frame and the auxiliary support, respectively; Screw jack bars are fastened to move in the opposite direction through the other hinge connection portion; And it characterized in that it comprises a rotary lever for rotating the screw jack bar. In addition, a reduction gear box is further provided between the screw jack bar and the rotary lever.

In addition, the rotation support member is mounted to be located below the center of the length of the vertical frame, it characterized in that the load of the vertical frame is configured to be applied to the upper portion of the screw jack means.

Finally, the easy operation manual solar panel support device according to the present invention, the buffer spring is installed between the frame and the auxiliary support in order to prevent the sudden rotation operation of the frame, and for reducing the rotation of the screw jack bar The reducer fixing cylinder is further provided between the screw jack means and the auxiliary support.

According to the passive solar panel support device of the present invention easy to operate has the following effects.

1) The overall structure of the supporting device can be simplified because the condensing angle of the solar panel is adjusted by using the opposite movement of the screw jack.

2) Since the angle of rotation is adjusted by using screw jacks that move in opposite directions, there is no need for a reversal prevention means such as a brake or stopper to fix the adjusted position once.

3) The screw jack type adjusts the collecting angle, so the adjustment angle can be finely adjusted.

4) Since the relationship between the main support, the auxiliary support, and the components forming the angle adjusting device forms a triangle structure, it is safe and advantageous in overcoming loads and wind loads.

5) It is easy to adjust the condensing angle of a series of solar panels only by rotating the screw jack.

1 is a perspective view for showing the overall configuration of a solar panel support device according to a first embodiment of the present invention.
Figure 2 is a side view for showing the overall configuration of a solar panel support device according to a first embodiment of the present invention.
Figure 3 is a rear view for explaining the operating state of the screw jack means according to the first embodiment of the present invention.
Figure 4 is a side view for showing the overall configuration of a solar panel support device according to a second embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings, and the inventor may appropriately design the concept of the term appropriately to describe its own design in the best way possible. It should be interpreted as a meaning and a concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the constitutions shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

( First Embodiment )

1 is a perspective view for showing the overall configuration of the solar panel support apparatus according to a first embodiment of the present invention, Figure 2 is a side view for showing the overall configuration of a solar panel support device according to a first embodiment of the present invention 3 is a rear view for explaining the operating state of the screw jack means according to the first embodiment of the present invention. Here, reference numeral "500" denotes a solar panel, "F" denotes a horizontal frame for installing the solar panel, and "FV" denotes a vertical frame installed vertically in the width direction with respect to the horizontal direction of the frame, respectively. The frame without specifying the vertical represents the entire frame consisting of the horizontal frame and the vertical frame.

The solar panel support apparatus 1000 according to the first embodiment of the present invention is composed of a plurality of support units respectively installed on the vertical frame FV provided at equal intervals on the horizontal frame F. In particular, the support, the base 100, the rotation support member 200 is installed so as to hinge-rotate on the base 100 to support the vertical frame (FV) to rotate, and the horizontal frame (F) in a screw jack method It comprises a screw jack means 300 for adjusting the condensing angle of the). Here, the condensing angle means the rotation angle of the frame according to the position of the sun.

The base 100 is a plate having a predetermined size for supporting the support, and is provided with a main support 110 and an auxiliary support 120, which are rod members, at the top. In particular, hinge portions 111 and 121 are formed at an upper portion of the main support 110 and the auxiliary support 120, respectively. At this time, the hinge parts 111 and 121 are formed such that the rotation shafts are located next to each other.

In addition, the upper portion of the main support 110 and the auxiliary support 120 is connected to the reinforcing member 130 to overcome the shake and wind load of the present system.

Rotating support member 200 is wrapped around the vertical frame (FV), the hinge portion 210 which is hinged to the hinge portion 111 is formed on one side.

In particular, the rotation support member 200 may be formed in the shape of a tubular member so that the vertical frame (FV) can be inserted therein, and is manufactured in a "c" shape to be supported by the lower portion of the vertical frame (FV). It is also possible to form so that. The rotation support member 200 is fixed to the vertical frame (FV) by welding or fastened by bolts.

Rotating support member 200 formed as described above, the hinge portion 210 is rotatably installed on the upper portion of the main support 110, that is, the hinge portion (111). At this time, the rotation support member 200 is fixed to the middle portion of the length of the vertical frame (FV).

The screw jack means 300 includes a link portion 320 for guiding the angle adjustment of the vertical frame FV, a screw jack bar 330 and a rotating lever 310 for operating the link portion 320. .

The link unit 320 is composed of four links 320a to 320d. And, each of these links (320a ~ 320d) are connected to each other by hinges (321a, 322a, 323a, 324a) to the hinge connecting portion (321, 323) and the hinge connecting ram (322,324), respectively, so as to be movable in the same plane.

The link unit 320 connected as described above is rotatably installed as a hinge 325a on the support member 325 in which the hinge connector 321 is fixed to the vertical frame FV.

In addition, the link unit 320 is hinge-fixed to the auxiliary support 120, the other hinge connector 323 facing the hinge connector 321. At this time, the hinge coupling between the hinge connecting portion 323 and the hinge portion 121 is rotatably installed in the same direction as the hinge connecting portion 321.

In a preferred embodiment of the present invention, the support member 325 is installed so as to be located above the upper middle portion of the rotary support member 200 and the vertical frame (FV), the rotation support to be the center of rotation of the frame (F) It is desirable to be remote from the member 200 so that it can be operated with a small force.

The screw jack bar 330 is a rod member, and the right and left screws are formed on the outer circumferential surface, and the right and left screws are screwed to the hinge connecting rams 322 and 324, respectively. As the screw jack bar 330 rotates in one direction, the two hinge connecting rams 322 and 324 move in opposite directions to rotate the frame using a change in distance between the hinge connectors 321 and 323.

The rotary lever 310 is formed at the end of the screw jack bar 330, it is a lever for enabling manual operation by hand easily the screw jack bar 330 as a rod member.

In particular, the rotary lever 310 is provided with a reduction gear box 340 between the screw jack bar 330. The reduction gear box 340 reduces the number of rotations of the rotary lever 310 to generate a large torque, thereby supporting a plurality of jackscrew means 300 for supporting the load of a series of solar panels loaded on the vertical frame FV. ) Can be easily operated at the same time.

Screw jack means 300 made in this way, as shown in Figure 3, as the rotation lever 310 rotates in one direction, the distance between the hinge connecting rams (322,324) fastened to the screw jack bar 330 is shortened. . Accordingly, the length of the link unit 320 becomes long.

That is, the pair of links 320b and 320c hinged to the auxiliary support 120 does not move as one end is fixed to the auxiliary support 120, but only rotates to the left and right. At this time, since the distance between these links 320b and 320c is narrowed, the distance between the hinge connectors 321 and 323 becomes long as a result. This causes interference with the vertical frame FV, and the frame rotates as indicated by the solid line in FIG. 2.

On the other hand, when the rotary lever 310 is rotated in the opposite direction, it is possible to adjust the rotation angle as indicated by the virtual line in Figure 2 by the opposite action as described above.

( Second Embodiment )

4 is a perspective view for showing the overall configuration of a solar panel support apparatus according to a second embodiment of the present invention. Here, the same components as those in the first embodiment will be denoted by the same reference numerals and the detailed description thereof will be omitted.

The solar panel support apparatus 1000 ′ according to the second embodiment of the present invention is configured to easily adjust the rotation angle of the shock absorbing spring 400 and the solar panel 500 in order to prevent sudden rotation of the frame. The reducer fixing cylinder 410 is further provided.

In Figure 4, the shock absorbing spring 400 shows an example in which both ends are fixed to the frame and the reinforcing member 130, respectively. The shock absorbing spring 400 may be any place provided that one side is installed at the frame side and the other side is opened at a predetermined angle to absorb shock. For example, the buffer spring 400 is installed between the frame and the auxiliary support 120.

In FIG. 4, one end of the reduction gear fixing cylinder 410 is installed in the reduction gear box 340, and the reduction gear fixing rod 411 of the reduction gear fixing cylinder 410 is mounted to the auxiliary support 120. At this time, the speed reducer fixing rod 411 may generate a gap between the auxiliary support 120, in this case, the rod support 412 is mounted to the auxiliary support 120, and hinged to be rotatable thereto.

Finally, the solar panel support apparatus 1000 ′ according to the second embodiment of the present invention may change the mounting position of the rotation support member 200 ′ for supporting the frame. That is, the rotation support member 200 in the first embodiment has been described as being installed in the center of the length of the vertical frame (FV).

However, the solar panel support apparatus 1000 ′ of the present invention fixes the rotation support member 200 ′ so that the upper load of the vertical frame FW is carried toward the screw jack means 300. That is, the rotation support member 200 ′ is installed at a point where the length of the vertical frame FV is divided at a ratio of 2: 3. This is because the load of the frame is always applied to the screw jack means 300 so that the solar panel 500 can be stably supported.

As seen from the above, the present invention adjusts the angle of rotation of the frame in a screw jack manner, thereby adjusting the angle of the solar panel 500 by using threads formed in opposite directions, and preventing loosening of the rotation angle. In addition, the simple configuration that does not require a reverse prevention device, but also has the effect of adjusting the focusing angle easily and accurately with a small force.

100: base 110: main support
111, 121, 210: hinge portion 120: auxiliary support
130: reinforcing member 200: rotation support member
300: screw jack means 310: rotary lever
320: link section 320a to 320d: link
321, 323: hinge connection parts 322, 324: hinge connection ram
330: screw jack bar 340: reduction gear box
400: shock absorber spring 410: reducer fixing cylinder
411: reducer fixing rod 412: rod support
500 solar panel

Claims (5)

A frame consisting of a horizontal frame (F) for installing a solar panel and a plurality of vertical frames (FV) installed perpendicular to the horizontal frame; And
The main support 110 is hinged and coupled to the vertical frame (FV) through the rotation support member 200 below the central portion or the center of the longitudinal center of the vertical frame (FV), and one end is the vertical frame (FV) and Hinge coupled screw jack means 300 and the other end of the screw jack means 300 is hinged to support the vertical frame (FV) through the screw jack means 300 at regular intervals with the main support 110 It comprises a base; having a secondary support 120 spaced apart on the upper surface;
The screw jack means 300, each end portion in a quadrangular form is connected to each other by the hinge connecting portion (321, 323) and the hinge connecting ram (322, 324), the hinge connecting portion (321, 323) facing each other the vertical frame ( FV) and the link portion 320 hinged to the auxiliary support 120, the screw jack bar 330 is fastened to be installed so as to move the hinge connecting rams (322,324) in opposite directions, and the screw jack bar ( It comprises a rotary lever 310 for rotating the 330,
The hinge coupling position of the screw jack means 300 and the vertical frame (FV) is above the center of length of the vertical frame (FV),
The screw jack means 300 is easy to operate manual solar panel support device, characterized in that a plurality of the link portion 320 is provided on one of the screw jack bar 330 and the rotary lever 310.
delete The method of claim 1,
Easy operation manual solar panel support device, characterized in that the reduction gear box 340 is further provided between the screw jack bar 330 and the rotary lever 310.
delete The method of claim 1,
A shock absorbing spring 400 installed between the frame and the auxiliary support 120 to prevent the sudden rotation of the frame from occurring suddenly;
Easy-operation manual solar panel support device, characterized in that the reducer fixing cylinder 410 is further provided between the screw jack means 300 and the auxiliary support 120 to reduce the rotation of the screw jack bar (330).

Images