KR101572859B1 - Solar power plants in the bracket - Google Patents

Abstract

The present invention relates to a bracket for a solar power plant and, more specifically, to a bracket for a solar power plant comprising: a body part (100) which is horizontally arranged between adjacent ridges (10) and has one or more grooves (110) to couple and fixate a support structure (20); and wing parts (200) which are extended from both ends of the body part and have coupling grooves (210) for the insertion of coupling units. According to the present invention, the bracket for a solar power plant remarkably reduces the use of support structures required for installing a solar power plant and reduces manufacturing and installing costs by standardizing the bracket.

Description

{Solar power plants in the bracket}

The present invention relates to a photovoltaic power generation facility facility bracket, and more particularly, to a photovoltaic power generation facility facility capable of installing a photovoltaic power generation facility capable of producing representative solar energy among regenerated energy without regard to a place and minimizing the amount of a structure used therein And more particularly, to a photovoltaic facility equipment bracket that reduces the cost and the economic burden of the user.

Currently, the global environment is seriously polluted due to the increase of carbon dioxide and acidic pollutants caused by mass consumption of fossil fuels such as petroleum and coal. Especially, global warming has serious effects such as abnormal weather and sea surface rise. At the time of import, there is no risk of accidents that threaten the human body, and solar energy, which is a representative example of renewable energy that does not contain toxic waste that causes various environmental problems such as waste disposal problems, is attracting attention.

The general solar power generation facility can be divided into a supporting structure that is seated on a roof and a solar cell module which is fastened to a supporting structure. Such solar power generation facilities are costly depending on the type, and the solar energy density is low In order to obtain a certain power, it is necessary to use a large amount of solar power generation modules, so that there is a limit to the installation site and it can give an economical burden to the users.

In addition, due to the characteristics of the solar power generation system having a change in the efficiency according to the angle of the sunlight, the solar module of the conventional solar power generation facility is installed on the roof of the building, A method of joining a solar module in a state in which the support structure for supporting the solar module is set up in parallel, and the support structure therefor is also increased in size, which can result in a great deal of cost.

For example, Korean Patent No. 10-1336869 discloses a " bracket for mounting a photovoltaic module ".

The length of the solar cell module is adjusted by adjusting the distance between the one end and the other end so as to adjust the distance between the solar cell module and the other end of the solar cell module, A rotation angle adjuster coupled between the coupling part and the length adjuster to adjust an angle at which the length adjuster rotates around an axis of the length adjuster, A first angle adjusting unit including a hinge angle adjusting unit, a waveguide for holding the solar power generating module, and a waveguide coupled between the length adjusting unit and the waveguide so as to adjust an angle between the waveguide and the length adjuster, And a second angle adjuster including a second hinge angle adjuster.

However, the above-mentioned patent requires a certain structure in order to realize an angle at which electric energy can be maximally produced, and it may be a rather complicated structure, which may cause installation cost.

Therefore, there is a need for a technology that can adjust the angle only by a bracket fixed to a roof, thereby drastically reducing the use amount of the structure.

Korean Registered Patent: Registration No. 10-1336869

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a solar power generating system capable of significantly reducing the amount of support structures required for installing a solar power generation facility, and standardizing and standardizing the brackets used therein, And to reduce the cost of processing.

In addition, it is a further challenge to reduce the reinstallation cost by making it possible to easily change the position of the photovoltaic power generation equipment to be installed in the south where the solar energy can be produced as much as possible.

In order to achieve the above object, according to the present invention,

A body portion 100 horizontally disposed in a region between adjacent ridges 10 and having at least one or more grooves 110 formed therein so that the supporting structure 20 is engaged with the body portion 100; And a wing part 200 in which a fastening groove 210 is formed for the purpose of being placed.

The body part 100 further comprises a support plate 120 extending vertically downward to support a load of the support structure 20. [

The body portion 100 further includes a protrusion 140 having a hollow inner space for injecting a waterproofing liquid and having a diameter narrower toward the upper side.

The groove 110 may include a first engaging groove 111 that is perforated in the longitudinal direction of the body 100 and a second engaging groove 111 that is formed by perforating the first engaging groove in a direction perpendicular to the first engaging groove, 2 coupling grooves 112, as shown in FIG.

The wing portion 200 is formed with an inclined portion 220 having an upward slope corresponding to the path leading to the body portion in order to induce upward placement of the body portion from the ridge.

The wing portion 200 further includes a lower wing portion 230 extending downward from an end portion of the wing portion 200 opposite to the one end of the body portion 100 and closely contacting the side surface of the wing portion.

The lower wing portion 230 includes an even number of lower coupling grooves 232 for inducing mutual coupling with the lower wing portion 230,

The wing part 200 has a hollow inner space for injecting the waterproofing liquid, which is protruded in an elliptical shape. The wing part 200 further has a fastening part 240 whose diameter becomes narrower toward the upper side. A plurality of fastening holes 242 through which fastening means are inserted are formed in the upper and lower portions.

The present invention having the above-described structure minimizes the use amount of the supporting structure on which the solar module is mounted, thereby reducing the installation cost and thus reducing the economic burden on the user. In addition, when the solar module is turned to the south, It is possible to change the direction only by changing the fixed position, thereby reducing the reinstallation cost.

In addition, by standardizing and standardizing the brackets, it is possible to reduce the cost and fix the solar power generation facility regardless of the direction, size and shape of the roof.

FIG. 1 is a view showing a state of use of a conventional solar power generation facility. FIG.
2 is a perspective view of a preferred embodiment of a solar power generation facility bracket according to the present invention.
Figure 3 is a side view of Figure 2;
4 is a use state diagram of Fig.
Figure 5 is another use state view of Figure 2;
Figure 6 is another use state view of Figure 2;
7 is a perspective view of another embodiment of a solar power generation facility bracket according to the present invention.
8 is a perspective view of still another embodiment of a solar power generation facility bracket according to the present invention.
9 is a perspective view of still another embodiment of a solar power generation facility bracket according to the present invention.
10 is a perspective view of still another embodiment of a solar power generation facility bracket according to the present invention.
11 is a sectional view of Fig.

First, as shown in FIG. 1, when a roof of a building in which a corresponding power generation facility is installed is constructed in a direction other than the south direction, a conventional solar power generation facility is further provided with a support structure 20 at a lower end thereof, There has been a problem of increasing the fatigue of the worker in addition to the cost of reinstallation.

In order to overcome the above problems, it is easier to install a photovoltaic power generation facility in which a system for tracking the sunlight is installed by raising the height of the support structure. This may increase the installation cost of the user, There is a problem that it can be avoided due to economic problems.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention. Will be apparent with reference to the embodiments described in detail below with reference to the accompanying drawings.

2 to 3, the photovoltaic power generation facility bracket of the present invention includes at least one groove 110 so as to be horizontally disposed in the area between adjacent ridges 10 so that the support structure 20 is coupled and fixed thereto And a wing part 200 formed at both ends of the body part and having a fastening groove 210 formed therein for interlocking the fastening means.

The body part 100 has a cross section having a predetermined width so that the support structure 20 can be closely adhered on the upper part. At least one groove 110 is horizontally elongated so that the support structure 20 can be engaged. It can be fixed at any position in the perforated bar, that is, in the long perforated area, thereby improving the efficiency of the fixed position and the convenience of changing the position. (The grooves 110 may be formed in various ways, and a corresponding embodiment will be described in detail with reference to FIGS. 7 to 8.)

In addition, the bracket 1 according to the present invention is formed to have a relatively thin thickness in order to ensure convenience and convenience in handling. This may cause a risk of fracture. And a support plate 120 extending vertically downward so as to support the load of the support structure 20. [

In other words, the support plate 120 is formed to extend vertically downward from the body 100 to prevent the body from buckling or fracture when the support structure is fixedly coupled to the groove 110. And also vertically extending downward to the boundary region of the wing portion 200 to prevent damage to the ridges protruding from the roof. At this time, a cutout part 300 is formed in the boundary area between the support plate 120 and the wing part. The cutout part 300 is a part cut in a triangle shape, the weight of the cut part is reduced by the cut area, The convenience of handling can be improved, but the flexibility of the body portion can be advantageously improved.

The wing portion 200 is formed with an inclined portion 220 having an upward slope corresponding to the path leading to the body portion in order to induce upward placement of the body portion from the ridge. The wing portion 200 further includes a lower wing portion 230 extending downward from an end portion of the wing portion 200 facing the end of the body portion 100 and closely contacting the side surface of the wing portion.

Specifically, it is formed so as to correspond to the convexly protruding shape of the protrusions, so that the brackets 1 coupled to the neighboring ribs in the worst gas condition or seasonal change are prevented from idling on the corresponding ribs, So that a stable installation can be achieved.

The body portion 200, which is horizontally disposed in the region separated by the inclined portion 220 of the wing portion 100 tightly fixed to the neighboring ridges 10, So that the roof panel can be prevented from being damaged and the difficulty of the construction work can be lowered.

As shown in FIG. 4, the lower wing portion 230 includes an even number of lower coupling grooves 232 for guiding mutual coupling with the corresponding lower wing portions 230.

The lower coupling groove 232 is configured to guide the double coupling to the top and sides of the corresponding groove through the coupling groove 210 together with the coupling groove 210. In other words, The fastening grooves 210 and the lower fastening grooves 222 are provided with respective fastening means to guide the fastening of the end portions of the sides of the ridge 10 and the upper surface of the roof 10 to the double fixed positions, Thereby inducing fixation.

Further, it is to be understood that the lower coupling groove 232 may be formed in any shape in which circular or square shapes are combined, and diameters may be different depending on the fastening means. In addition, the fastening groove 210 is formed to be long in the vertical direction, which allows the fastening means to be interposed at any position, thereby enabling precise positioning according to the installation of the plurality of brackets 1.

A waterproof pad is attached to the fastening groove 210 and the lower fastening groove 232 with a fastening means interposed therebetween. The waterproof pad is attached to the fastening groove 210 and the lower fastening groove 232, It is possible to omit a separate additional work by preventing it from flowing into the inside of the roof.

The principle of the position change according to the position of the sun after the solar power generation facility including the solar module and the support structure is installed using the bracket 1 of the present invention will be described.

First, as shown in FIG. 5, the roof where the solar power generation facility is fixed is formed in a downward sloping shape, and the roof is generally constructed to the south. That is, the bracket (1) separates the support structure from the roof, supports the solar module and slopes the solar module so that the position and angle at which the solar module can produce the maximum electricity Setting.

However, as shown in FIG. 6, there is a case where construction is not a southward direction due to a problem of initial construction. At this time, the bracket 1 according to the present invention is cross-placed on the ridges and ridges of the roof to change the angle of the supporting structure to change the position of the solar module. As a result, there is no need for a separate support structure 20 due to the position change. Therefore, it is possible to change the direction in a relatively easy manner, thereby reducing installation cost and construction time, and relieving operator fatigue.

Still further, another embodiment of the solar power generation facility facility bracket 1 of the present invention described above will be described in detail with reference to the drawings. In addition, only the characteristic parts will be mainly described so as not to overlap with the above description.

As shown in FIGS. 7 to 8, in another embodiment of the solar power generation facility bracket 1 of the present invention,

The groove 110 may include a first engaging groove 111 that is perforated in the longitudinal direction of the body 100 and a second engaging groove 111 that is formed by perforating the first engaging groove in a direction perpendicular to the first engaging groove, 2 coupling grooves 112, as shown in FIG.

In particular, it is possible to expand the range of motion of the support structure 20, which is engaged and fixed on the bracket 1, and to improve the coupling strength with the support structure, thereby preventing the brackets and the support structure from being separated from each other.

In other words, in order to change the position of the solar module according to the change of the position of the sun, it is necessary to fix the solar power generation facility in a position to maximize the electric energy regardless of the four seasons, So that the efficiency is improved.

More specifically, as shown in FIG. 7, it is preferable that the lower coupling groove 232 is installed in a relatively loose air space, but the lower blade 230 is closely fixed to the side of the ridge, It will be possible.

As shown in Fig. 9, in another embodiment of the solar power generation facility bracket 1 of the present invention,

The bracket 1 can be used in a flat place such as a floor where the ridges of the roof protrude narrowly or in a plane or the like and can be used without any admission to the place through a plurality of fastening means in the fastening groove 210 of the wing portion 200 Of course.

10 to 11, in another embodiment of the solar power generation facility bracket 1 of the present invention,

The bracket (1) prevents the inflow of fluid or the like into the roof through the waterproofing liquid to prevent the roof from being damaged.

For this, the body part 100 has a hollow interior space for injecting a waterproofing liquid, and a protrusion 140 having a shape in which the diameter becomes narrower toward the upper side.

The wing part 200 further includes a coupling part 240 protruding in an elliptical shape and having a hollow inner space for injecting the waterproof solution and having a smaller diameter as it goes upward, A plurality of fastening holes 242 through which the fastening means are inserted are formed through the upper and lower portions.

In other words, as the protrusion 140 and the fastening part 240 are formed, the specific gravity can be increased by enlarging the area of the bracket 1, that is, the handling convenience can be reduced The protruding portion and the inner space of the fastening portion are formed hollow to reduce the specific gravity in comparison with the widened area and the waterproofing liquid is injected into the space so that the fastening means is prevented from leaking due to penetration through the corresponding groove.

Further, the fastening part 240 is protruded in a tapered shape to prevent the fastening means from being interposed between the fastening part and the lid for a predetermined distance, and the load is accordingly dispersed to improve the stability.

In addition, the diameter of the fastening hole may be changed according to the type of the fastening means 40, which is changed according to the thickness or shape of the roof, and the number of the fastening holes may be changed. And a plurality of holes are formed in a diameter and a shape corresponding to the fastening means, so that tight coupling between the holes and the corresponding ribs 10 can be achieved.

The bracket 1 used in the photovoltaic power generation facility of the present invention including the above embodiment can be installed without regard to the material and position or inclination of the roof to be installed and induces a simple direction change and position fixing, So that it is possible to contribute to the spread of renewable energy. Also, the installation cost can be reduced because the excessive use of the structure is avoided, thereby reducing the economic burden on the user. By standardizing and standardizing such a bracket 1, it is possible to shorten the time required for manufacture and installation, thereby completing the construction in a short time, thereby relieving the fatigue of the operator.

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 exemplary embodiments. It is to be noted that this invention is provided to fully inform the owner of the scope of the invention. In addition, the true scope of the present invention should be construed according to the appended claims, and all technical ideas within the scope of equivalents should be construed as being included in the scope of the present invention.

10: and 20: support structures
30: solar module 40: fastening means
100: Body part 110: Home
111: first coupling groove 112: second coupling groove
120: support plate 140:
200: wing portion 210: fastening groove
220: inclined portion 230: lower blade portion
232: lower engaging groove 240: fastening portion
242: fastening hole 300: incision part

Claims (8)

The support structure 20 is disposed horizontally in the area between adjacent ridges 10 so as to be detachably attached to the adjacent roof 10 so that the supporting structure 20 on which the solar module 30 is mounted is fixed. And a wing part (200) extending from both ends of the body part and having a fastening groove (210) formed therein for interposition of fastening means In a solar power facility facility bracket,
The wing portion 200 is formed with an inclined portion 220 extending upwardly from a corresponding path leading to the body portion in order to induce upward placement of the body portion from the ridge 10, And a lower wing portion (230) extending from the opposite end portion and having a downward slope and being in close contact with the side surface portion of the ridge.
delete The method according to claim 1,
Wherein the body part (100) is further provided with a protruding part (140) having a hollow inner space for injecting a waterproof solution and having a diameter narrower toward the upper side.
The method according to claim 1,
The groove 110 may include a first engaging groove 111 that is perforated in the longitudinal direction of the body 100 and a second engaging groove 111 that is formed by perforating the first engaging groove in a direction perpendicular to the first engaging groove, 2 coupling grooves (112). ≪ RTI ID = 0.0 > 11. < / RTI >
delete delete The method according to claim 1,
Wherein the lower wing portion (230) includes an even number of lower coupling grooves (232) formed at even intervals to induce mutual coupling with the corresponding lower wing portion (230).
The method according to claim 1,
The wing part 200 has a hollow inner space for injecting the waterproofing liquid, which is protruded in an elliptical shape. The wing part 200 further has a fastening part 240 whose diameter becomes narrower toward the upper side. And a plurality of fastening holes (242) through which fastening means are interposed.

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