KR101096556B1 - Structure for Fixing a Solar Module - Google Patents

Abstract

The present invention relates to a fixing structure of a solar module, and more particularly, fixing a solar module that is easy to install and remove the module frame by applying a fixing clip when installing a plurality of modules on the ground, roof or roof of a building. It's about structure.

The solar module fixing structure of the present invention comprises a module 10 consisting of a solar energy collecting plate 11 and a frame 12 coupled to the light collecting plate 11 to provide structural strength; A support frame 20 positioned on a lower surface of the module 10 to support and fix the module 10; Body 31 is fitted to the outer circumferential surface of the support frame 20, and the side end is fastened to the frame 12 to secure the frame 12 and the support frame 20 by pressing the frame 12 Fixing clip 30 having a pressing plate (32); And a control unit.

Fixing structure of the solar module of the present invention by the above configuration is fixed to the photovoltaic module and the support frame using a fixed clip, so the work time is shortened during the installation and removal of the solar module and the work process is simple This can be done quickly, resulting in lower labor and construction costs and lower maintenance costs.

Solar, module, fixed, clip

Description

Structure for Fixing a Solar Module

The present invention relates to a fixing structure of a solar module, and more particularly, fixing a solar module that is easy to install and remove the module frame by applying a fixing clip when installing a plurality of modules on the ground, roof or roof of a building. It's about structure.

In general, photovoltaic power generation means concentrating (heating) solar light to a solar cell or a photovoltaic module to perform power generation.

The solar module is called a solar module as a kind of solar panel, and there are a general type, a window type, a tracking type, and a hybrid type.

The principle of photovoltaic using this photovoltaic module is carried out by the photovoltaic effect. When solar light is irradiated to a pn junction solar panel by n-type doping on a silicon crystal, Energy causes electromotive force by electron-holes, which is called the photovoltaic effect. The solar panels can be connected in parallel and as many times as you want to make the desired power. The system stored in the storage battery and used when needed is called individual solar power system or stand-alone solar power system, and it is used in connection with normal power lines. It is called grid-connected solar power system.

As shown in FIG. 1, a structure of a solar module fixing device for photovoltaic power generation according to the prior art includes a support frame 2 fixing an outer circumferential surface by arranging the solar modules 1 horizontally or vertically. And a support shaft 3 installed on the front / rear surface of the support frame 2 to maintain the solar module 1 at an inclined angle.

Fixing plate 4 is installed to be fixed to the ground or the upper surface of the concrete, the support shaft 3 is welded to the upper portion of the fixing plate 4, the reinforcing ribs (5) on both sides of the lower side of the support shaft 3 It forms and welds to the support shaft 3 and the fixed plate 4, respectively, and prevents the support shaft 3 from inclining.

Meanwhile, in order to fix the solar module 1 to the support shaft 3, when the connecting plate 6 made of a plate is welded to the upper portion of the supporting shaft 3, one end of the connecting plate 6 protrudes upward to be supported. Welded or bolted to the frame 2.

The solar module fixing device installed as described above has a cumbersome work process for welding the fixed plate 4 and the support shaft 3 fixed to the concrete floor, and the support shaft 3 is firmly fixed to the fixed plate 4. Inconvenience to re-weld the reinforcing ribs 5 to be fixed, and the work time takes a long time, which leads to an increase in labor costs, and in particular because the welding of the painted support shaft (3) and the fixed plate (4) This peeling or discoloration had a problem that the aesthetic view is not good.

And since the support shaft (3), the fixed plate (4) and the reinforcing ribs (5) must be welded at all times, it is difficult to manage and handle the parts, and the parts are often separated and transported so that they are often lost. Since this is not standardized, the working time is different according to the welding worker, and there is a problem that the work is delayed due to the poor welding work.

In the work of fixing the solar module 1 to the support shaft 3, the hassle of welding the connecting plate 6 on the upper part of the support shaft 3, and the spark on the solar module 1 during the welding process There was also a problem that the risk of fire splashing.

As described above, the conventional photovoltaic module fixing device has a problem in that labor cost and construction cost increase due to the inability to perform the work quickly due to the complicated working time and work process, and excessively expensive maintenance costs.

The present invention has been made in order to solve the above problems, an object of the present invention, by using a fixing clip when fixing one or a plurality of modules to the support frame solar light that facilitates the installation, addition and removal of the module To provide a fixed structure of the module.

The solar module fixing structure of the present invention comprises a module 10 consisting of a solar energy collecting plate 11 and a frame 12 coupled to the light collecting plate 11 to provide structural strength; A support frame 20 positioned on a lower surface of the module 10 to support and fix the module 10; Body 31 is fitted to the outer circumferential surface of the support frame 20, and the side end is fastened to the frame 12 to secure the frame 12 and the support frame 20 by pressing the frame 12 Fixing clip 30 having a pressing plate (32); And a control unit.

In addition, the body 31 of the fixing clip 30 extends downwardly from both side ends of the body upper plate 31a and the body upper plate 31a to which the pressing plate 32 is fastened, and is spaced apart from each other. And a lower clip 34 is fitted into and fixed to the lower end of each of the body side plates 31b so that the inner surface of the body 31 is pressed against the support frame 20. It is done.

In addition, the body 31 and the pressing plate 32 is characterized in that made of an elastic material.

In addition, a through hole is formed in the body 31 and the lower clip 34, and a fixing pin 35 is inserted into the through hole, so that the body 31 and the lower clip 34 are coupled and fixed. .

In addition, the frame 12 includes a fixing part 13 on which a surface seated on the support frame 20 extends inwardly of the frame 12, and an upper surface of the fixing part 13 is crimped. It is characterized in that the frame 12 is fixed to the support frame 20 in contact with the lower end of the side plate (32).

In addition, the frame 12 includes a fixing portion 14, the surface of which is seated on the support frame 20 extends to the outside of the frame 12, the upper surface of the fixing portion 14 is the pressing It is characterized in that the frame 12 is fixed to the support frame 20 in contact with the lower end of the side plate (32).

In addition, the frame 12 includes fixing jaws 13a and 14a in which ends of the fixing parts 13 and 14 protrude upward, and when the frame 12 and the support frame 20 are fixed, It is characterized in that the upper side of the fixing jaw (13a, 14a) is caught by the bent portion of the pressing plate 32 is fixed.

In addition, the body 31 and the pressing plate 32 is characterized in that the lower surface of the upper body plate 31a and the upper surface of the pressing plate 32 abuts to be fixed by a connecting pin 33.

Fixing structure of the solar module of the present invention by the above configuration is fixed to the photovoltaic module and the support frame using a fixed clip, so the work time is shortened during the installation and removal of the solar module and the work process is simple This can be done quickly, resulting in lower labor and construction costs and lower maintenance costs.

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

Figure 2 is a perspective view showing a solar module fixing structure of the present invention, Figure 3 is an exploded perspective view showing a solar module fixing structure of the present invention, Figure 4 is a perspective view showing a fixing clip of the present invention. Figure 5 is an exploded perspective view showing a fixing clip of the present invention, Figure 6 is a partial front cross-sectional view showing a solar module fixing structure of the present invention, Figures 7 to 9 is a perspective view showing a fixing clip of another embodiment of the present invention. . 10 to 13 is a partial cross-sectional view showing a solar module fixing structure of the present invention.

2 and 3, the fixing structure of the solar module of the present invention includes a module 10, a support frame 20, and a fixing clip 30.

2, 3, 10, and 11, the module 10 includes a light collecting plate 11 formed of a plurality of solar cells. The light collecting plate 11 serves to convert solar energy into electrical energy. The module 10 includes a frame 12 coupled to the light collecting plate 11 to provide structural strength. The frame 12 may have any shape as long as it can protect the light collecting plate 11 and provide structural strength.

However, as shown in FIGS. 10 and 11, the fixing parts 13 and 14 and the fixing jaws 13a and 14a are formed at the lower ends for coupling and fixing with the fixing clip 30.

The fixing part 13 is formed on the hypotenuse of the frame 12. The fixing part 13 may be formed on a hypotenuse seated on the support frame 20 among the hypotenuses of the frame 12 and may be symmetrically formed. The fixing part 13 may be formed on a surface on which the frame 12 is seated on the support frame 20. The fixing part 13 may be formed in which the seating surface extends inward. The frame 12 includes a fixing jaw 13a which protrudes upward from an end of the fixing part 13 extending inwardly. The fixing part 13 and the fixing jaw 13a are coupled to the fixing clip 30, and the coupling structure will be described in detail in the fixing clip 30 to be described later.

Referring to FIGS. 2 and 3, the support frame 20 forms a beam shape and is positioned on a lower surface of the module to support and fix the combination of the moduli that are combined side by side. The support frame 20 may be spaced apart from each other by a predetermined distance up and down of the module 10. The support frame 20 is formed to have a different height from each other, the support frame 20 installed on the lower side of the module 10 is formed low and the support frame 20 installed on the upper side of the module 10 is high It is formed to maintain the module 10 in a predetermined angle inclined. The support frame 20 generally uses a rectangular pipe, and in some cases, an H beam may be used.

4 to 11, the fixing clip 30 includes a body 31, a pressing plate 32, a connection pin 33, and a lower clip 34. The body 31 includes a body upper plate 31a for coupling with the pressing plate 32 and a body side plate 31b which is formed to extend downwardly from both side ends of the body upper plate 31a to be spaced apart from each other. It is done by The body 31 may be made of an elastic material. The pressing plate 32 may be fastened to an inner surface of the body 31, that is, a lower surface of the body upper plate 31 a. In this case, the body upper plate 31a and the pressing plate 32 may be fastened through the connecting pin 33 by forming a through hole corresponding to each other. The connecting pin 33 may be used in any configuration to prevent separation of the body upper plate 31a and the pressing plate 32 to be fastened. The pressing plate 32 includes a wing (32a) extending from both sides end from the surface is fastened to the body. At this time, it is preferable that the wing 32a is formed on a side surface on which the body side plate 31b is not formed. The wing 32a may be formed bent downward at a predetermined angle. The wing 32a may be made of an elastic material. The wing 32a is coupled to the lower surface of the wing 32a by being fixed to the upper surface of the fixing portion 13 and the support frame 20 to couple the module 10 and the support frame 20 and It serves to fix it. At this time, the upper end of the fixing jaw (13a) is coupled to the bent portion of the pressing plate 32 so that when the fixing clip 30 is in contact with the fixing portion 13 to further secure the fixing clip ( 30) to prevent the flow.

The fixing clip 30 is coupled between the module 10 and the support frame 20 to fix the module 10 and the support frame 20. The lower surface of the wing (32a) abuts on the upper surface of the fixing portion 13 and is fixed by elasticity, the outer peripheral surface of the support frame 20 is sandwiched between the body side plate (31b) to the module 10 and the The support frame 20 is fixed. At this time, the bent portion of the blade 32a is fitted into the fixing jaw 13a, thereby more effectively preventing the flow of the module 10 fixed through the blade 32a and the fixing portion 13.

In addition, the fixing clip 30 and the support frame 20 may be made to include a lower clip 34 coupled to the lower end of the fixing clip 30 in order to more firmly.

The lower clip 34 is composed of a lower plate 34a and a side plate 34b, the lower plate 34a is installed on the bottom surface, and the side plate 34b is symmetrically upward from both side ends of the lower plate 34a. It may be extended. The side plate 34b is preferably fixed to the inner surface is fitted to the outer surface of the body side plate (31b). This is to press the inner surface of the body 31 to the support frame 20 and at the same time serves to fix the support frame 20 to the bottom surface. The side plate (34b) is formed with a protrusion bent in the left and right longitudinal direction in order to secure the coupling between the side plate (34b) and the body side plate (31b), the body side plate (31b) corresponding to the protrusion bent portion Protruding bending groove may be formed in the left and right longitudinal direction.

At this time, as shown in Figure 7 the body side plate 31b and the side plate 34b is engaged with the coupling surface through holes (not shown) penetrating the coupling surface may be formed on both sides, respectively. The fixing pin 35 may be fitted into the through hole. This is to further solidify the coupling of the body 31 and the lower clip (34).

In addition, any one of the side plates 34b may be formed to extend upwardly from the protruding bent portion as shown in FIG. 8 to facilitate coupling with the body side plates 31b.

As shown in FIG. 9, the body side plate 31b may be formed in a cylindrical shape according to the cross-sectional shape of the support frame 20.

12 and 13, the fixing portion 14 may be formed by extending the hypotenuse bottom of the frame 12 to the outside. The frame 12 includes a fixing jaw 14a protruding upward from an end of the fixing part 14 extending outward.

10 to 13, in the case of the module 10 having the fixing part 13 formed inwardly of the frame 12, the fixing clip 30 may be positioned inside the module 10. Although it is efficient in terms of securing space, it is preferable to apply to both ends of the support frame 20 because it may be difficult in terms of installation. In the case of the module 10 having the fixing part 14 formed to the outside of the frame 12, the fixing clip 30 is located outside the module 10, the fixing clip 30 is installed Although the installation space of the module 10 is reduced as much as the space, it is preferable to apply between the module 10 and the module 10 because it is easy to install.

The fixing structure of the solar module of the present invention by the configuration as described above is made because the coupling between the module and the support frame by using the elasticity of the fixing clip is no need for a separate welding or processes such as screw or screw coupling work This saves time and time. In particular, it can be said to be more effective for the addition or removal of the module on the same support frame.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention, and do not satisfy all of the technical idea of the present invention, various equivalents that may be substituted for them at the time of the present application It should be understood that there may be water and variations.

1 is a side view showing a conventional solar module fixing structure

2 is a perspective view showing a solar module fixing structure of the present invention

Figure 3 is an exploded perspective view showing a solar module fixing structure of the present invention

4 is a perspective view showing a fixing clip of the present invention

5 is an exploded perspective view showing a fixing clip of the present invention

6 is a partial front cross-sectional view showing a solar module fixing structure of the present invention.

7 to 9 is a perspective view showing a fixing clip of another embodiment of the present invention

10 to 13 is a partial cross-sectional view showing a solar module fixing structure of the present invention

<Description of the symbols for the main parts of the drawings>

10 module 11: light collecting plate

12: frame 13, 14: fixed part

13a, 14a: fixed jaw

20: support frame

30: fixing clip 31: body

31a: body top plate 31b: body side plate

32: pressing plate 33: connecting pin

34: lower clip 35: fixed pin

Claims (8)

A module 10 comprising a solar energy collecting plate 11 and a frame 12 coupled to the light collecting plate 11 to provide structural strength; A support frame 20 positioned on a lower surface of the module 10 to support and fix the module 10; Body 31 is fitted to the outer circumferential surface of the support frame 20, and the side end is fastened to the frame 12 to secure the frame 12 and the support frame 20 by pressing the frame 12 Fixing clip 30 having a pressing plate (32); Fixing structure of a solar module, characterized in that comprises a. The method of claim 1, The body 31 of the fixing clip 30 extends downward from both side ends of the body upper plate 31a and the body upper plate 31a to which the pressing plate 32 is fastened, and is spaced apart from each other to be installed. ), Fixing the solar module, characterized in that the lower clip 34 is fitted to each of the lower end of the body side plate 31b so that the inner surface of the body 31 is pressed against the support frame 20. rescue. The method of claim 1, The body 31 and the pressing plate 32 is a fixing structure of the solar module, characterized in that made of an elastic material. 3. The method of claim 2, A through hole is formed in the body 31 and the lower clip 34, and a fixing pin 35 is inserted into the through hole, so that the body 31 and the lower clip 34 are coupled and fixed. Fixed structure of the module. The method of claim 1, The frame 12 includes a fixing part 13 on which a surface seated on the support frame 20 extends to the inside of the frame 12, and an upper surface of the fixing part 13 is the pressing plate ( 32 is fixed to the support frame 20, characterized in that the frame 12 is fixed to the support frame 20 in contact with the lower surface. The method of claim 1, The frame 12 includes a fixing part 14 on which a surface seated on the support frame 20 extends to the outside of the frame 12, and an upper surface of the fixing part 14 is the pressing plate ( 32 is fixed to the support frame 20, characterized in that the frame 12 is fixed to the support frame 20 in contact with the lower surface. The method according to claim 5 or 6, The frame 12 includes fixing jaws 13a and 14a in which end portions of the fixing portions 13 and 14 protrude upward, and the pressing plate 32 has both sides thereof fixed downward to form a bent portion. Including the wings 32a which are bent and extended at an angle,  The fixing structure of the solar module, characterized in that the upper side of the fixing jaw (13a, 14a) is caught by the bent portion of the pressing plate 32 when fixing the frame (12) and the support frame (20). The method of claim 7, wherein The body 31 and the pressing plate 32 is fixed to the solar module, characterized in that the lower surface of the body upper plate (31a) and the upper surface of the pressing plate 32 abuts to be fixed by a connecting pin 33. .

Images