KR101733526B1 - Apparatus for supporting solar cell modules - Google Patents

Abstract

The present invention relates to an apparatus for supporting a light collection plate of a solar cell. More specifically, an apparatus for supporting a light collection plate of a solar cell can variously adjust the inclination angle of the light collection plate of the solar cell in accordance with the altitude angle of the sun having a local difference in accordance with the latitude and longitude of a location, minimizes the process of a welding operation for coupling configuration elements to enable an easy construction operation and makes a lightweight support structure to reduce conveying costs, thereby lowering construction cost. According to the present invention, the apparatus for supporting a light collection plate of a solar cell includes: multiple H-shaped steel base units installed on the ground in a series; a coupler coupled to the upper parts of the H-shaped steel base units; a rotational shaft installed to penetrate the upper part of the coupler; a rotational plate coupled to both sides of the rotational shaft; support bars coupled to the upper part of the rotational plate; multiple L-shaped coupling members coupled to the upper parts of the support bars; multiple C-shaped steel units which are coupled to the L-shaped coupling members to connect the support bars and load a light collection plate on the upper parts; multiple angle fixing holes which are formed on the coupler radially around the rotational shaft; multiple angle adjusting holes formed on the rotational plate to correspond to the angle fixing holes while having different inclination angles; and an angle fixing means which is coupled to the angle adjusting holes through the angle fixing holes.

Description

[0001] APPARATUS FOR SUPPORTING SOLAR CELL MODULES [0002]

The present invention relates to a solar cell condenser holding device, and more particularly, to a solar cell condenser holding device capable of variously adjusting the inclination angle of a solar cell condenser plate in accordance with the altitude angle of the sun having a local difference according to latitude and longitude, The present invention relates to a solar cell condenser support device capable of reducing the construction cost by reducing the weight of the support structure and thus reducing the transportation cost.

Fossil fuels, such as energy sources, need constantly high technological power and capital to make and use them, have the limitations of cost increase and resource depletion, and are the most cost- The need for environmentally friendly and safe new renewable energy is increasing because it secures high technology and safety.

Among them, photovoltaic power generation can be used continuously without fuel exhaustion, and carbon dioxide is not generated at the time of power generation, so it is becoming more and more popular as an environmentally friendly and safe power generation method compared with fossil fuel generation method.

Typical photovoltaic power generation system is a system that generates electricity by solar cell that generates electricity by photoelectric effect when receiving the sunlight and elements that store and supply electric energy. It includes condenser, capacitor and power inverter. , And the solar collecting plate having a plurality of solar cells arranged in a module form has the best power generation efficiency at an angle of 90 degrees with the sun ray. Since the earth rotates and revolves, the altitude of the sun periodically changes, Thus, there is a large difference in power generation efficiency.

Such solar power generation system is composed of fixed type, fixed variable type, or tracking type depending on the installation method of the solar cell module. In the fixed type, the angle of the solar cell is adjusted without adjusting the angle of the solar cell, Because it is fixed, it is difficult to obtain more than 70% of the maximum output except for spring and autumn. There is a problem that economical efficiency is different due to seasonal difference. The tracking formula tracks the position and altitude of the sun, So that the installation cost and the maintenance cost are large. On the other hand, in the fixed variable type, the angle of the condenser is manually adjusted to the angle of the condenser so that the angle of the condenser is perpendicular to the typical solar altitude angle of the winter, spring, autumn and summer in summer. It is a way of becoming.

Since the angle adjuster of the fixed variable solar cell concentrator is installed on the hearth, it is required to be able to maintain a stable angle with a robust and low-cost facility even in a windy environment.

Techniques such as Korean Patent No. 10-0734217 and No. 10-1108713 have been disclosed as conventional techniques for adjusting the angle of the light collecting plate to the solar altitude angle. In Korean Patent No. 10-0734217, a semicircular cover And the angle adjusting piece is used to adjust the angle of the solar panel by using the angle adjusting piece in the angle adjusting piece hole formed on the lid. In this case, the angle adjusting piece simply supports the load of the solar panel, The durability of the angle adjusting piece for supporting the load of the solar panel is weakened, causing a problem of being worn or broken.

In Korean Patent No. 10-1108713, the support frame, which rotatably supports the solar panel relative to the rotation center line, is rotated in the movement hole of the rotation coupling hole formed along the arc trace on the rotation plate, A method in which the pivot joint hole is formed along the arc shape trajectory requires a further clearance to allow the angle fixing member to move smoothly as compared with a method of fastening the bolt in the angle adjusting hole. The size of the hole formed by the abrasion increases and the durability of the plate is decreased. Therefore, the plate is easily damaged in the process of adjusting the angle. In addition, There is a problem that it is difficult to replace or repair.

Korean Patent No. 10-0734217 Korean Patent No. 10-1108713

The solar cell condenser support device according to the present invention can variously adjust the inclination angle of the solar cell condenser according to the altitude angle of the sun where regional differences arise, and the support structure is robust, And maintenance costs are reduced.

The solar cell condenser support apparatus according to the present invention comprises a plurality of H-shaped beam bases provided in a line on a ground; A coupling member coupled to an upper portion of the H-shaped beam base; A rotating shaft installed to penetrate the upper portion of the coupling hole; A rotating plate coupled to both sides of the rotating shaft; A support bar coupled to an upper portion of the rotating plate; A plurality of L-shaped engagement members coupled to an upper portion of the support bar; A plurality of C-shaped bars coupled to the L-shaped coupling members to connect the support bars and to stack the condenser plates thereon; A plurality of angular fixing holes radially formed in the coupling hole about the rotation axis; A plurality of angle adjusting holes formed in the rotation plate to correspond to the angle fixing holes while forming different inclination angles; And angle fixing means coupled through the angle adjusting hole and the angle fixing hole,

The angle adjusting hole and the angle fixing hole may be adjusted to vary the angle of the light collecting plate according to the area, and the weight of the light collecting plate supporting device may be reduced while improving the supporting force of the light collecting plate supporting device.

The coupling hole may include a pair of coupling plates coupled to an upper portion of the H-shaped steel base, And a fixing unit including a pair of fixing plates formed with the angle fixing holes and a coupling member for coupling the fixing plate to each other, wherein the fixing unit is fitted with an upper end of the coupling plate, And an engaging slot for engaging the engaging portion.

In addition, the solar battery light collecting plate may be formed by various combinations of the angle adjusting holes corresponding to different angle fixing holes to form various inclination angles.

The connecting bracket may further include a connecting plate having the same shape as the rotating plate and an extending support member extending in a '?' Shape at one end of the connecting plate so as to surround one side of the supporting bar, And a plurality of supporting bars supporting the solar cell condenser adjacent to the H-shaped beam foundation are coupled to the rotating plate so that the solar cell condensers are separated from each other to be connected and rotated together.

According to the present invention, the angle of the light condensing plate can be variously adjusted according to the altitude angle of the sun, which varies depending on latitude and longitude according to the latitude and longitude, and the structure of the support structure is robust, It is possible to reduce the installation cost and the maintenance cost by minimizing the work and facilitating the transportation, installation and maintenance of the structure.

1 is a perspective view illustrating a solar cell condenser plate supporting apparatus according to an embodiment of the present invention;
FIG. 2 is a perspective view showing a solar cell condenser holding device according to an embodiment of the present invention viewed from a different angle. FIG.
FIG. 3 is a partially enlarged view of a portion A in FIG. 2; FIG.
4 is a side view showing an example in which a solar cell condenser holding device according to an embodiment of the present invention is installed on a hard ground;
FIG. 5 is a side view showing an example in which a solar cell condenser holding device according to an embodiment of the present invention is installed on a soft ground; FIG.
6A is a perspective view and a cross-sectional view of a coupling hole of a solar cell condenser plate supporting apparatus according to an embodiment of the present invention;
FIG. 6B is a view showing a case where a coupling slot is formed in a coupling hole of a solar cell condenser holding device according to an embodiment of the present invention, and a case where the coupling slot is not formed. FIG.
FIG. 7A is a view illustrating an angle fixing hole and an angle adjusting hole in an apparatus for supporting a solar cell condenser according to an embodiment of the present invention. FIG.
FIG. 7B is a view illustrating an example of inclination angles formed according to a combination of an angle fixing hole and an angle adjusting hole in a solar cell condenser holding device according to an embodiment of the present invention; FIG.
FIG. 8 is a perspective view of a solar cell condenser holding apparatus according to another embodiment of the present invention. FIG.
Fig. 9 is a partially enlarged view of the portion B in Fig. 8; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is also to be understood that when an element is referred to as being "comprising" or " comprising " another element in the description of the invention or claim, it is not construed that the term " As will be understood by those skilled in the art.

1 to 3, a solar cell condenser holding apparatus according to an embodiment of the present invention includes a plurality of H-shaped beam bases 100 installed in a line on a ground; A coupling 200 coupled to an upper portion of the H-shaped steel base 100; A rotation shaft 300 installed to penetrate the upper portion of the coupling member 200; A rotary plate 400 coupled to both sides of the rotary shaft 300; A support bar 500 coupled to an upper portion of the rotary plate 400; A plurality of L-shaped engagement members 600 spacedly coupled to an upper portion of the support bar 500; A C-shaped steel 700 coupled to the L-shaped coupling member 600; A plurality of angular fixing holes 250 formed in the coupling member 200; A plurality of angle adjusting holes 450 formed in the rotary plate 400; And an angle fixing means 800 coupled through the angle fixing hole 250 and the angle adjusting hole 450.

The H-shaped beam base 100 is an H-shaped column having an H-shaped section and a plurality of columns arranged in a line in the ground. The H-shaped beam base 100 has an H- May vary in size. At this time, when the photovoltaic power generation structure is a hard ground according to the ground condition to be installed, the bottom of the H-shaped beam foundation may be buried deep in the ground in a pile manner as shown in FIG. 4, As shown in FIG. 5, a base plate 110 including an anchor bolt coupling portion may be formed at a lower end so as to be installed in a concrete structure laid on the ground.

Generally, H-shaped steel is composed of web, which is the part corresponding to the horizontal bar of H-shaped, and flange, which is the part corresponding to the vertical bar on both sides. It is composed of wide and thick flange and thin web, And is widely used as a structural steel due to its excellent combination and easy joining. This H-beam foundation (100) is lightweight compared to square pipe of the same standard, and it is not necessary to separately join the reinforcing ribs at the lower end, or when the reinforcement is required, ribs only need to be installed on the web. There is an easy advantage.

The coupling unit 200 is coupled to the upper portion of the H-shaped beam base 100 to mediate coupling between the H-shaped beam base 100 and other structures for supporting the solar cell condenser. In an embodiment of the present invention, (200) includes a pair of coupling plates (210) coupled to an upper portion of the H-shaped beam, a pair of fixing plates (221) formed with angular fixing holes (250), and a coupling member And a fixing part 220 having a cross section of '└┘' type.

It is preferable that the coupling plate 210 is provided with a plurality of elongated holes so as to be bolted to the upper portion of the H-shaped steel base 100. The upper end of the coupling plate 210 is fixed to the coupling member 222 of the fixing portion 220 It is more preferable that the coupling slot 223 can be fitted and coupled. In this case, the joining slot 223 is provided to widen the joining portion between the joining plate 210 and the fixing portion 220 to increase the joining force. In the case where the joining slot 223 is not provided in FIG. 6B, When the upper end of the fixing plate 210 directly contacts the outside of the fixing part 220, the welding part W is one part but the coupling plate 210 is inserted into the coupling slot 223 as in the case where the coupling slot 223 exists. The welded portion W can be welded not only to the outer side of the coupling plate 210 and the coupling member 222 but also to the upper end of the coupling plate 210 fitted to the coupling slot 223, So that a stronger bonding force can be given.

A plurality of angular fixing holes 250 are formed in the fixing plate of the fixing unit 220 at radial positions with respect to the rotation axis and correspond to the angle adjusting holes 450 to be described later, So that it can be fixed. This is because, even if the same season and date correspond to each other, altitude angles of the sun are different according to latitude and longitude depending on the latitude and longitude, and the angle fixing holes 250 formed in the radial position correspond to different angle adjusting holes 450, So that it can be formed in various ways.

The rotary shaft 300 is installed so as to penetrate the upper portion of the coupling hole 200. The rotary shaft 300 is a central shaft for allowing the solar light condensing plate to rotate at a predetermined angle in accordance with a change in altitude of the sun, In an embodiment, the rotary shaft 300 is formed of a bolt coupled through a coupling hole 200 and a pair of rotary plates 400 to be described later, but may be configured by a known hinge pin or the like.

The rotation plate 400 is coupled to both sides of the rotation axis 300 and has a plurality of angle adjustment holes 450. In the embodiment of the present invention, And the rotation plate 400 is installed so as to be rotatable about the rotation axis 300.

7A to 7B, in the embodiment of the present invention, in adjusting the inclination angle of the solar battery condenser plate, each of the angle adjusting holes 450 may be formed in correspondence with different angle fixing holes 250 The photovoltaic power collectors are arranged at 8 degrees (250d, 450b), 15 degrees (250e, 450a), 23 degrees (250f, 450c), 30 degrees (250c, 450a), 37 degrees 450a) and the like, and can be used in accordance with characteristics of various regions having latitude and longitude difference. In general, the hole is formed to be larger than the fastening means, and the size of the hole gradually increases with time as wear occurs. Therefore, in the case of a plate having a plurality of holes or holes, the durability of the hole is rapidly reduced. It is possible to reduce the number of holes formed in the plate by minimizing the decrease in strength of the hole portion compared to the long hole method by making it possible to make various angles according to the corresponding positions of the angle fixing hole 250 and the angle adjusting hole 450 .

The support bar 500 may be a pipe having various sizes and shapes according to the size and weight of the solar cell condenser. The rotary plate 400 is preferably bolted.

As shown in FIG. 3, the L-shaped coupling member 600 is coupled to the upper portion of the support bar 500 so as to be spaced apart from each other. Depending on the size of the solar battery condenser to be supported or the size of the support bar 500, The size of the member 600 may vary. At this time, the L-shaped coupling member 600 must have a coupling force capable of supporting the solar cell condenser plate 1 while being able to withstand the stress due to the load of the solar cell condenser plate 1, desirable.

The C-shaped steel 700 is coupled to the L-shaped coupling member 600 so as to connect across the plurality of supporting bars 500, and the solar light collecting plate 1 is mounted on the upper portion. The C-shaped steel 700 is formed as a rib formed on the edge of a groove-shaped steel (or a d-shaped steel). The C-shaped steel 700 is lightweight as compared to the square pipe. In an embodiment of the present invention, the C- It is preferable that the first electrode 600 and the second electrode 600 are coupled to each other through a bolt. At this time, electric wires for connecting the solar battery light collecting plate 1, the battery, and the controller can be stored in the groove formed in the C-shaped steel 700, so that the wiring work is easy during construction and the electric wire is prevented from being exposed. There is an advantage.

The angle fixing means 800 is a means for fixing the angle so that the rotated solar light collecting plate 1 is maintained at a predetermined angle and is coupled through the angle fixing hole 250 and the angle adjusting hole 450, In an embodiment of the present invention, the fastening bolt and the nut are fastened together but may be formed by other methods.

8 to 9, in the apparatus for supporting a solar cell condenser according to another embodiment of the present invention, a connecting plate 910 having the same shape as the rotating plate 400 and a connecting plate 910 ' And a connecting bracket 900 formed on the rotating plate 400 to cover one side of the rotating plate 400 and the supporting bar 500. [ The connection bracket 900 includes a pair of support bars 500 for supporting the solar cell condenser plates adjacent to the H-shaped column base 100, And the structures supporting the light-collecting plate can be connected and rotated together, thereby saving manpower and time required for the angle adjustment of the solar cell light-collecting plate.

A method and an operation of a solar cell condenser holding device according to an embodiment of the present invention will be summarized as follows.

Generally, devices for supporting the solar cell condenser are manufactured through a process of manufacturing each of the components and then transferring the components to an installation site. In order to obtain a strong coupling force in the solar cell condenser support device according to an embodiment of the present invention, The coupling bar 200 and the L-shaped coupling member 600, which are welded to each other, are welded before the transfer, Even when the base plate 110 is required for the H-shaped steel base 100, the welding operation is performed in this process. This is because weld joining requires expert skill and takes more time than bolt joining, so that it is possible to shorten the construction time at the construction site and make it easier for unskilled people to work.

The supporting bar 500 having the H-shaped base 100, the coupling 200, the rotary shaft 300, the rotary plate 400 and the L-shaped coupling member 600, the C-shaped steel 700, And the solar cell condenser plate 1 are moved to the installation site to install the H-shaped beam foundation 100 on the ground and the joint 200, the rotary shaft 300, the rotary plate 400, the support bar 500, The C-shaped steel 700 and the solar cell condenser plate 1 are bolted together to fit the structure.

When the supporting device is installed, the angle of the solar cell condenser 1 is adjusted so as to have an inclination angle corresponding to the area and the season, and is fixed using bolts and nuts constituting the angle fixing means 800. At this time, the coupling of the coupling 200, the rotary shaft 300, the rotary plate 400, the support bar 500, the C-shaped steel 700 and the solar battery condenser 1, which are coupled to the H- As a result, the installation can be done quickly and easily.

When the angle of the solar cell is changed according to the season, the angle fixing means 800 is loosened and the solar cell is rotated so that the solar cell condenser corresponding to the season has a proper angle of inclination according to the season, The bolts of the angle fixing means 800 are passed through the angle fixing holes 250 and the angle adjusting holes 450 and the nuts are tightened at one end.

The apparatus for supporting the solar cell condenser according to one embodiment of the present invention can variously adjust the inclination angle of the solar cell condenser according to the altitude angle of the sun in which regional differences arise according to latitude and longitude, The welding operation can be minimized, so that the work can be facilitated at the time of construction, and the cost of construction can be reduced because the support structure is robust and the support device is lightweight, thereby reducing the transportation cost.

In addition, since the solar collectors installed separately in the same row can be connected and connected together through the connection bracket, the labor and time required for the angle adjustment work are reduced, and the welding connection is minimized. Therefore, So that it is easy to recycle.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, The present invention is not limited to the embodiments and the accompanying drawings.

1: Solar collecting plate
10: Support structure of solar cell condenser
100: H-shaped steel base 110: Base plate
200: Coupling port 210: Coupling plate
220: fixing part 221: fixing plate
222: coupling member 223: coupling slot
250 (250a, 250b, 250c, 250d, 250e, 250f): Angle fixing hole
300: rotating shaft 400: rotating plate
450 (450a, 450b, 450c): Angle adjustment hole 500: Support bar
600: L-shaped coupling member 700: C-shaped steel
800: Angle fixing means 900: Connection bracket
910: connecting plate 920: extension supporting member

Claims (4)

Numerous H-section foundations in line on the ground;
A coupling member coupled to an upper portion of the H-shaped beam base;
A rotating shaft installed to penetrate the upper portion of the coupling hole;
A rotating plate coupled to both sides of the rotating shaft;
A support bar coupled to an upper portion of the rotating plate;
A plurality of L-shaped engagement members coupled to an upper portion of the support bar;
A plurality of C-shaped bars coupled to the L-shaped coupling members to connect the support bars and to stack the condenser plates thereon;
A plurality of angular fixing holes radially formed in the coupling hole about the rotation axis;
A plurality of angle adjusting holes formed in the rotation plate to correspond to the angle fixing holes while forming different inclination angles; And
And angle fixing means coupled through the angle adjusting hole and the angle fixing hole,
Wherein the coupling means comprises: a pair of coupling plates coupled to an upper portion of the H-shaped beam base; And
And a fixing unit including a pair of fixing plates formed with the angle fixing holes and a coupling member for coupling the fixing plate to each other, wherein the fixing unit is fitted with an upper end of the coupling plate, Slots are formed,
Wherein the angle adjusting hole and the angle fixing hole are aligned with each other to adjust the angle of the light collecting plate according to the area to improve the supporting force of the light collecting plate supporting device. delete The method according to claim 1,
And the angle adjusting holes are formed in correspondence with different angular fixing holes so that the solar battery light collecting plate can form various inclination angles, and three angle adjusting holes are formed in a ' A solar cell concentrator supporting device. The method of claim 3,
Further comprising a connecting plate having the same shape as the rotating plate and a connecting bracket including an extending support member extending in one end of the connecting plate so as to surround one side of the supporting bar,
The connecting bracket is coupled to the rotating plate so that a plurality of support bars supporting the solar cell condenser plates adjacent to the H-shaped beam foundation can be coupled, and the solar battery condenser plates separated from each other can be connected and rotated together Wherein the solar cell is a solar cell.

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