KR20110011765U - Supporting apparatus capable of varying angular for solar module fixed on roof - Google Patents

Abstract

According to a first embodiment of the present invention, the roof variable solar module support apparatus according to the present invention includes a light collecting plate on which a plurality of solar cells are arranged, and a roof variable solar light fixed to a fixed surface installed on a roof or a roof of a building. In the module support device, the insertion projection of the rotating hinge bracket fastened to the side of the light collecting plate to the inside of the fixing protrusion of the fixed hinge bracket fixed to the fixing surface is rotatably inserted to support the upper side of the light collecting plate to be rotatable. Hinge part; An upper sliding bar fixed to the lower side of the light collecting plate and having at least one upper fastening hole formed therein, a lower sliding bar having at least one lower fastening hole formed to be fixed to the fixing surface and coinciding with the upper fastening hole formed therein; A sliding part including a fixing pin which is inserted into the upper fastening hole and the lower fastening hole, which are coincided with each other when the bar slides inside the lower sliding bar, and fixes the upper sliding bar and the lower sliding bar; And fixing parts connected to the sliding part and the hinge part at both ends and fixed to the fixing surface, respectively.

Description

Supporting apparatus capable of varying angular for solar module fixed on roof}

The present invention relates to a roof variable solar module, and more specifically, a roof variable solar system which can selectively adjust the orientation angle of the light collecting plate 10 according to the position of the solar module fixed to the roof or rooftop building. It relates to an optical module.

In general, the photovoltaic module is used to generate electric power by using the light of the sun, and integrates a solar cell that directly converts solar energy into electrical energy into a plate shape to produce a large amount of electrical energy at the same time. As fossil energy is gradually being depleted, the demand for it is increasing.

Such solar modules are typically installed on roofs, rooftops or exterior walls of buildings where sunlight is smoothly irradiated, or outdoors open areas. As the solar modules are formed of a thin semiconductor material, they are stably supported while preventing damage. In order to ensure that a separate support is installed on the lower side, such a support is typically formed in the upper side to support the solar module is formed in a shape corresponding to the bottom surface of the solar module in order to be disposed in the sunlight On the lower side of the support frame, the support module is coupled to the solar module is disposed inclined while being spaced apart from the ground.

However, the conventional support as described above has a problem that it is difficult to adjust the angle of the solar module according to the height of the seasonal solar because it is very difficult to adjust the angle of the solar module coupled to the upper surface after the installation is completed, thereby Since the module is not disposed in front of the sun at all times of the year, there is a problem that the power generation efficiency is lowered by the irradiation amount of sunlight per unit area.

Therefore, the present invention is conceived to solve the conventional problems as described above, an object of the present invention is to selectively install a solar module that is installed on the roof or rooftop of a building to produce power according to the position of the sun or the shape of the roof. An object of the present invention is to provide a roof variable photovoltaic module support device capable of adjusting an angle.

The present invention includes the following embodiments to achieve the above object.

According to a first embodiment of the present invention, the roof variable solar module support apparatus according to the present invention includes a light collecting plate on which a plurality of solar cells are arranged, and a roof variable solar light fixed to a fixed surface installed on a roof or a roof of a building. In the module support device, the insertion projection of the rotating hinge bracket fastened to the side of the light collecting plate to the inside of the fixing protrusion of the fixed hinge bracket fixed to the fixing surface is rotatably inserted to support the upper side of the light collecting plate to be rotatable. Hinge part; An upper sliding bar fixed to the lower side of the light collecting plate and having at least one upper fastening hole formed therein, a lower sliding bar having at least one lower fastening hole formed to be fixed to the fixing surface and coinciding with the upper fastening hole formed therein; A sliding part including a fixing pin which is inserted into the upper fastening hole and the lower fastening hole, which are coincided with each other when the bar slides inside the lower sliding bar, and fixes the upper sliding bar and the lower sliding bar; And fixing parts connected to the sliding part and the hinge part at both ends and fixed to the fixing surface, respectively.

In a second embodiment of the present invention, in the first embodiment, the rotary hinge bracket extends from the insertion protrusion and is fixed to the side surface of the upper side of the light collecting plate to be fixed to the upper side of the cross-sectional coupling plate. The fixed hinge bracket further includes a first bent piece that is bent and supported to be in close contact with the upper surface of the light collecting plate, and a second bent piece that is bent and formed to be in close contact with a lower surface of the light collecting plate at a lower side of the cross-sectional coupling plate. Includes a coupling plate extending in the transverse direction from the fixing protrusion to be in close contact with the fixing surface, and the hinge portion engaging piece which is formed to protrude upward from the coupling plate and is bent at one end of the fixing portion.

According to a third embodiment of the present invention, in the first embodiment, the sliding part has an upper fixing bracket on which the upper side of the upper sliding bar is seated and fixed, and an upper portion extending from the upper fixing bracket and fixed to the side of the light collecting plate. A third bending piece for bending the coupling plate, the upper coupling plate is formed on the upper side of the upper coupling plate, and the fourth bending piece for holding the upper coupling plate in close contact with the upper surface, and the fourth bending piece for bending the upper coupling plate on the lower side and in close contact with the bottom surface of the light collecting plate. Upper fixing means comprising a; A lower fixing bracket to which the lower sliding bar is seated and fixed, a lower coupling plate extending transversely from the lower fixing bracket to be in close contact with the fixing surface, and bent to protrude from one end of the lower coupling plate so that the fixing part It further comprises a lower fixing means including a fixing portion bending piece fastened to the opposite end of the.

As described above, the roof variable solar module support apparatus according to the present invention can selectively adjust the orientation angle of the solar module installed on the inclined roof or the roof of a building according to the position of the sun or the shape of the roof. There is an effect that can increase the power production efficiency of power generation.

1 is a perspective view showing a roof variable solar module support device according to the present invention,
Figure 2 is an exploded side view showing a roof variable solar module support device according to the present invention,
Figure 3 is a side cross-sectional view showing an upper hinge portion in a roof variable solar module support device according to the present invention,
Figure 4 is a side cross-sectional view showing the lower fixing means of the sliding portion in the roof variable solar module support device according to the present invention,
Figure 5 is a side cross-sectional view showing the upper fixing means of the sliding portion in the roof variable solar module support device according to the present invention,
Figure 6 is a side view for explaining the operating state of the roof variable solar module support device according to the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the roof variable solar module support device according to the present invention will be described in detail.

1 is a perspective view showing a roof variable solar module support device according to the present invention, Figure 2 is an exploded side view showing a roof variable solar module support device according to the present invention.

1 and 2, the present invention relates to a fixed surface (2) indicating the roof or the roof surface of the roof of the building and a roof variable solar module is fixed to the fixing surface (2) to be rotated up and down will be. Here, the solar module has a plurality of solar cells 11 arranged on the upper surface of the support means 12, both sides of the light collecting plate for fastening the support means 12 and the cell 11 by a fixing bracket 13 10 and a hinge portion 20 which is hinged on the fixing surface 2 to rotate the light collecting plate 10 in a vertical direction, and slides upward and downward from the lower side of the light collecting plate 10. ) And a sliding part 30 for rotating and fixing the hinge part 20 and a fixing part 40 for fixing the hinge part 20 and the sliding part 30 to a wall surface.

The hinge portion 20 will be described with reference to FIGS. 2 and 3, and FIG. 3 is a side sectional view showing the hinge portion 20 in the roof variable solar module support apparatus according to the present invention.

Referring to FIG. 3, the hinge portion 20 is a fixed hinge bracket 22 fixed to the fixing surface 2 and a rotating hinge bracket 21 hinged to be rotatable to the fixed hinge bracket 22. And fastening screws 23, 35, and 42 for coupling the rotating hinge bracket 21 to the light collecting plate 10, and the rotating hinge bracket 21 inserted into the fixing bracket 13 to be rotatable. It includes a rotating screw 24 and a fixing screw 23 for fixing the rotating hinge bracket (21).

The rotating hinge bracket 21 is inserted into the fixed hinge bracket 22 and is supported by the rotating shaft 24 to be rotatably supported by the insertion protrusion 211 and the insertion protrusion 211 extending from the light collecting plate 10. The first bent piece 213 and the first bent piece 213 which are bent at both ends of the end face coupling plate 212 and the end face of the light emitting plate 10 and are in close contact with the top and bottom surfaces of the light collecting plate 10. And a two bending piece 214.

The insertion protrusion 211 is a protrusion which protrudes, and the rotation shaft 24 is rotatably fastened to an inner center thereof to be rotatably fixed to the fixed hinge bracket 22.

The end face coupling plate 212 extends from the insertion protrusion 211 so that the fixing screw 23 communicates with the fixing bracket 13 in a threaded hole formed by being in close contact with the side surface of the light collecting plate 10. Since it is fastened to the light collecting plate 10, it is fixed.

The first bent piece 213 is bent from the upper side of the cross-sectional coupling plate 212 is in close contact with the upper surface of the light collecting plate 10, the second bent piece 214 is the lower side of the cross-sectional coupling plate 212 At the bottom of the light collecting plate 10 is bent and in close contact with each other to fix and support the light collecting plate 10.

The fixed hinge bracket 22 is a fixing protrusion 222 to be inserted so that the insertion protrusion 211 and the coupling plate 223 extending from the fixing protrusion 222 to be coupled to the fixing surface (2) And, one end of the coupling plate 223 includes a hinge portion engaging piece 221 is formed to be bent so that the fixing portion 40 is caught.

The fixing protrusion 222 forms an inner circumferential surface such that the insertion protrusion 211 is rotatable from the inside and is fastened to the insertion protrusion 211 by the rotation shaft 24.

The coupling plate 223 is a flat plate extending from the fixing protrusion 222, the hinge portion engaging portion 221 is formed at one end and the fixing screw 42 is inserted at the opposite end to the fixing surface (2) Screw holes (not shown) are formed to be fastened to the.

The hinge part engaging piece 221 is bent in a 'c' shape to be upward from one end of the coupling plate 223 is engaged with the fixed part bent piece 411 of the fixing part 40 to be described later.

The sliding part 30 will be described in detail with reference to FIGS. 2, 4, and 5.

Figure 4 is a side cross-sectional view showing a lower fixing means 34 of the sliding part 30 in the roof variable solar module support device according to the present invention, Figure 5 is a sliding part in the roof variable solar module support device according to the present invention It is a side sectional view which shows the upper fixing means 33 of (30).

4 and 5, the sliding part 30 is fixed to the upper sliding bar 31 fixed to the rear of the light collecting plate 10, and the fixing surface 2 is fixed to the upper sliding bar 31 The lower sliding bar 32 is fastened so as to slide inwardly and moves up and down, the upper fixing means 33 for fixing the upper sliding bar 31 to the light collecting plate 10, and the lower sliding bar 32. Lower fixing means 34 for fixing the upper surface to the fixing surface 2, fixing pins 36 for fixing the upper sliding bar 31 and the lower sliding bar 32, and the upper fixing means 33 and the lower portion. And a fixing screw 35 for fixing the fixing means 34 to the light collecting plate 10 and the fixing surface 2, respectively.

The upper sliding bar 31 is a sliding bar extending in a longitudinal direction in a helical manner and is inserted or detached by sliding inward of the lower sliding bar 32. Here, the sliding bar has an upper fastening hole 311 into which the fixing pin 36 is inserted.

The lower sliding bar 32 is fixed to the fixing surface 2 side by the lower fixing means 34 and forms an empty space such that the upper sliding bar 31 slides inside. Here, the lower sliding bar 32 has a lower fastening hole 321 corresponding to the upper fastening hole 311 of the upper sliding bar 31.

The fixing pin 36 is inserted into the upper fastening hole 311 and the lower fastening hole 321 respectively formed in the upper sliding bar 31 and the lower sliding bar 32 so that the upper sliding bar ( 31) and the lower sliding bar 32 is fixed.

The upper fixing means 33 includes an upper fixing bracket 331 into which an upper end of the upper sliding bar 31 is inserted to fix the upper sliding bar 31 to the light collecting plate 10, and the upper fixing bracket ( An upper coupling plate 332 extending from the 331 and in close contact with the side end surface of the light collecting plate 10 and bent at both ends of the upper coupling plate 332 to support the top and bottom surfaces of the light collecting plate 10. The third bending piece 333 and the fourth bending piece 334 are included.

The upper fixing bracket 331 forms an empty space in which an opening is formed at the lower side, so that when the upper end of the upper sliding bar 31 is inserted, the fixing screw 35 is formed at the upper end of the upper fixing bracket 331. As it communicates with the thread, it is fastened.

The upper coupling plate 332 extends by the upper fixing bracket 331, is in close contact with the side end surface of the light collecting plate 10, and is fixed by fixing screws 23, 35, and 42.

The third bending piece 333 is bent at one end of the upper coupling piece to support the top surface of the light collecting plate 10, and the fourth bending piece 334 is bent at the other end of the upper coupling piece to the light collecting plate ( 10) is in close contact with the bottom of the support.

The lower fixing means 34 includes a lower fixing bracket 341 for fixing the lower sliding bar 32, a lower coupling plate 342 closely coupled to the fixing surface 2, and the fixing part 40. Sliding portion engaging piece 343 is formed to be bent to the).

The lower fixing bracket 341 forms an empty space into which the lower side of the lower sliding bar 32 is inserted, and the fixing screw 35 to which the lower sliding bar 32 is inserted is fastened. Form the pores.

The lower coupling plate 342 extends from the lower fixing bracket 341 and has a flat surface closely contacting the fixing surface 2. The lower coupling plate 342 is fixed to the fixing surface 2 by a fixing screw 42 into which a through hole (not shown) is formed.

The sliding part engaging piece 343 is bent to be caught by the fixing part 40 at one end of the lower coupling plate 342. Here, the sliding portion engaging piece 343 may be made in a variety of applications depending on the shape that is engaged with the locking configuration formed on the end of the fixing portion (40).

The fastening pins 36 have upper fastening bars 31 formed on the upper sliding bar 31 and the lower sliding bar 32 when the upper sliding bar 31 slides inside the lower sliding bar 32 and moves up and down, respectively. The upper sliding bar 31 is fixed because it is connected to the hole 311 and the lower fastening hole 321.

The fixing portion 40 is formed to have a curved surface by connecting the hinge portion 20 and the sliding portion 30 to the fixing surface (2) to be in close contact with the fixing surface (41) And a fixing screw 42 which is inserted into the fixing surface 2 through the through hole formed in the connecting plate 41 to fix the connecting plate 41 to the fixing surface 2. Wherein the connecting plate 41 is connected to the hinge portion 20 and the lower fixing means (34).

The connecting plate 41 is connected across the hinge portion 20 and the lower fixing means 34, and bent to engage and engage the hinge portion engaging piece 221 and the sliding engaging piece at both ends. The fixed portion bending piece 411 is formed. Preferably, the fixing portion bent piece 411 is preferably formed to convex the central portion of the connecting plate 41 to have a position higher than the central portion of the connecting plate 41. This is because both ends and the central portion is different from each other because the elastic force is generated when the engaging and engaging the hinge portion 221 and the sliding portion (343) at both ends to maintain a firm coupling between each other.

The present invention includes the configuration as described above, hereinafter will be described in detail with reference to the operation of the roof variable solar module support device according to the present invention using the configuration as described above.

Figure 6 is a side view for explaining the operating state of the roof variable solar module support device according to the present invention.

Referring to FIG. 6, the roof variable solar module according to the present invention includes a cross-section coupling plate of the hinge portion 20 and a lower fixing bracket of the lower fixing means 34 on a fixed surface 2 of a roof or a roof of a building. 341 is fixed to the fixing surface 2 as a fixing screw 42.

The hinge portion 20 and the sliding portion are engaged with the fixed portion bending piece 411 and the hinge portion 20 and the sliding portion locking piece 343 respectively formed at both ends of the fixing portion 40. (30) is fixed to the fixed surface (2).

At this time, the lower sliding portion 30 is fixed to the lower fixing bracket 341, the upper sliding bar 31 is fastened to the upper fixing bracket 331. In addition, the upper fixing bracket 331 is coupled to the side of the light collecting plate 10 by the fixing screws (23, 35, 42). Similarly, the upper sliding bar 31 is partially inserted into the lower end of the lower sliding bar 32.

That is, when the manager slides the upper sliding bar 31 to the inner side of the lower sliding bar 32, the light collecting plate 10 is rotated downward. At this time, the hinge portion 20 has an insertion protrusion 211 of the rotating hinge bracket 21 and the insertion protrusion 211 of the rotating hinge bracket 21 inserted into the fixing protrusion 222 of the fixed hinge bracket 22. Is rotated. Accordingly, the light collecting plate 10 may have a different orientation angle of the light collecting plate 10 due to the rotation of the hinge portion 20 and the sliding of the upper sliding bar 31.

Afterwards, if the manager moves the upper sliding bar 31 up and down to reach the desired angle, the upper fastening hole 311 of the upper sliding bar 31 and the lower fastening bar 32 of the lower sliding bar 32. Since the fixing pin 36 is inserted after the holes 321 coincide with each other, the direction angle control of the light collecting plate 10 is completed.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art various modifications of the present invention without departing from the spirit and scope of the present invention described in the utility model claims below And can be changed.

1: solar module 2: fixed surface
10: condenser plate 11: solar cell
12: support means 13: fixed bracket
20: hinge portion 21: rotating hinge bracket
22: fixed hinge bracket 23: fixed screw
24: rotating shaft 30: sliding part
31: upper sliding bar 32: lower sliding bar
33: upper fixing means 34: lower fixing means
35: fixing screw 36: fixing pin
40: fixing part 41: connecting plate
42: set screw 211: insertion protrusion
212: end face coupling plate 213: first bending piece
214: 2nd bending section 221: hinged section
222: fixing protrusion 223: coupling plate
311, 321: fastening hole 331: upper fixing bracket
332: upper coupling plate 333: the third bending piece
334: 4th bending section 341: lower fixing bracket
342: lower coupling plate 343: sliding part engaging piece
411: fixed part bending piece

Claims (3)

In the roof variable solar module support device is fixed to the fixed surface on the roof or roof of the building, including a light collecting plate is arranged a plurality of solar cells,
A hinge part rotatably supporting an upper side of the light collecting plate to be rotatably inserted into an insertion protrusion of a rotating hinge bracket fastened to a side of the light collecting plate to an inner side of a fixing protrusion of the fixed hinge bracket fixed to the fixing surface;
An upper sliding bar fixed to the lower side of the light collecting plate and having at least one upper fastening hole formed therein, a lower sliding bar having at least one lower fastening hole formed to be fixed to the fixing surface and coinciding with the upper fastening hole formed therein; A sliding part including a fixing pin which is inserted into the upper fastening hole and the lower fastening hole, which are coincided with each other when the bar slides inside the lower sliding bar, and fixes the upper sliding bar and the lower sliding bar; And
And a fixed part connected to each of the sliding part and the hinge part at both ends, and fixed to the fixed surface. 2. The method of claim 1, wherein the rotating hinge bracket
A cross-section coupling plate extending from the insertion protrusion and fixed to the side surface of the light collecting plate, the first bending piece bent to support the top surface of the light collecting plate at an upper side of the cross-section coupling plate, and the cross-section coupling; Further comprising a second bending piece bent to support the lower surface of the light collecting plate in the lower side of the plate,
The fixed hinge bracket includes a coupling plate extending in the transverse direction in close contact with the fixing surface, and the hinge portion engaging piece which is formed to protrude upward from the coupling plate and bent to one end of the fixing portion. Roof variable solar module support device, characterized in that. The method of claim 1, wherein the sliding portion
An upper fixing bracket on which the upper side of the upper sliding bar is seated and fixed, an upper coupling plate extending from the upper fixing bracket and fixed to the side of the light collecting plate, and bent from an upper side of the upper coupling plate, so that the light collecting plate is formed on the upper surface. Upper fixing means including a third bent piece to be brought into close contact and a fourth bent piece bent from the lower side of the upper coupling plate to be in close contact with the bottom surface of the light collecting plate;
A lower fixing bracket to which the lower sliding bar is seated and fixed, a lower coupling plate extending transversely from the lower fixing bracket to be in close contact with the fixing surface, and bent to protrude from one end of the lower coupling plate so that the fixing part The roof variable solar module support device further comprises a lower fixing means including a fixing portion bending piece fastened to the opposite end of the.

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