Exhibition

Home > Exhibition > Content

Solar panel fixing structure for building

In the prior art solar panel fixing structure, the gap between the solar panel and the roof is insufficient, so that the temperature at the gap cannot be effectively reduced, the high temperature reduces the power generation efficiency of the solar panel, and the temperature may be damaged due to excessive temperature. Or the situation of burning, so it needs improvement.


102353503222076


Technical realization elements:


First, the technical problem to be solved


The technical problem to be solved by the utility model is to provide a solar panel fixing structure for construction to solve the technical problem.


Second, the technical plan


In order to solve the technical problem, the technical solution adopted by the utility model is: a solar panel fixing structure for building, comprising: a plurality of rails, the rail has a rail slot, and the rail slot is locked with two The fastener is disposed on the two ends of the solar panel by the fastener, the rail parallel rail slot is provided with a fixing slot; the plurality of first brackets, the first bracket is formed with at least one leg for use in the standing lock, the first The bracket extends a connecting piece on the leg, and the fixing groove of the track is locked by the connecting piece, and the solar panel is installed by the cooperation of the first bracket and the track, and the height of the leg is h1, thereby forming a low erection of the solar panel. a second bracket, the second bracket is formed with at least one tripod for use in the standing lock, and the second bracket extends a locking piece on the tripod, and the track is locked by the locking piece The fixing slot further comprises a solar panel mounted by the second bracket and the rail. The height of the tripod is h2, and the height h1 of the leg is lower than the height h2 of the stand, thereby forming an elevated state of the solar panel.


An elliptical hole is defined in the connecting piece and the locking piece, and the fixing groove is locked by a bolt at the elliptical hole, thereby forming a fine adjustment of the height of the track.


Third, the beneficial effects


Compared with the prior art, the utility model has the following beneficial effects:


The first bracket and the second bracket of the utility model are fixed with different solar panels, and the height of the legs of the first bracket is h1, the height of the tripod of the second bracket is h2, and the height h1 of the leg is lower than The height h2 of the tripod allows the adjacent two solar panels to be erected at different heights, so that the wind energy can be easily blown into the lower end between the two solar panels, and then the height difference between the solar panels can be improved to improve the heat dissipation effect of the solar panel.


DRAWINGS


Figure 1 is a perspective view of the present invention.


2 is a perspective view showing the assembly of the first bracket of the present invention.


Figure 3 is a perspective view showing the assembly of the second bracket of the present invention.


Figure 4 is a schematic view of the height difference of the present invention.


Figure 5 is a schematic view of the state of use of the present invention.


Detailed ways


The specific embodiments of the present invention are further described in detail below with reference to the accompanying drawings and embodiments. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.


As shown in FIG. 1 to FIG. 5, the utility model provides a solar panel fixing structure for a building, which comprises: a plurality of rails 10, a plurality of first brackets 20 and a plurality of second brackets 30, and a plurality of rails 10 A rail slot 11 is defined, and two fasteners 12 are locked at the rail slot 11, and the fasteners 12 are correspondingly disposed at two ends of the solar panel 40. The rail 10 is parallel to the rail slot 11 and has a fixing slot 13 and a plurality of The first bracket 20 is formed with at least one leg 21 for use in the standing lock. 


The first bracket 20 extends a connecting piece 22 on the leg 21, and the fixing groove 13 of the rail 10 is locked by the connecting piece 22, and then passes through The first bracket 20 is coupled with the rail 10 to mount the solar panel 40. The height of the leg 21 is h1, thereby forming a low erection state of the solar panel 40. The plurality of second brackets 30 are formed with at least a shelf lock. A tripod 31, the second bracket 30 defines a locking piece 32 on the stand 31, and the fixing slot 13 of the rail 10 is locked by the locking piece 32. The connecting piece 22 and the locking piece 32 are opened. An elliptical hole 221, 321 is defined, and the fixing groove 13 is locked by a bolt 23, 33 at the elliptical hole 221, 321 The height of the track 10 is finely adjusted, and the solar panel 40 is mounted by the cooperation of the second bracket 30 and the rail 10. The height of the leg 31 is h2, and the height h1 of the leg 21 is lower than the height h2 of the stand 31. The high-rise state of the solar panel 40 is formed, and a height difference is formed by the adjacent solar panels 40 to improve the heat dissipation effect of the solar panel 40.


The first bracket 20 is locked on the wave plate of the roof by the legs 21, so that the connecting pieces 22 of the first bracket 20 are all upwardly extended, and further fixed to the rail 10 by the bolts 23 passing through the elliptical holes 221. At the slot 13, the solar panel 40 is placed on the rail 10, and the fastener 12 is locked at the rail groove 11 of the rail 10, so that the fastener 12 can press the solar panel 40 to form a fixed, similarly, The tripod 31 of the second bracket 30 is locked on the roof and is locked by the bolt 33 through the elliptical hole 322 to the fixing slot 13 of the rail 10, and then the solar panel 40 is supported by the rail 10, and finally locked by the fastener 12. 


The rail slot 11 of the rail 10 is formed to form the function of the second bracket 30 to erect the solar panel 40. The rail slot 11 can provide the adjustment of the relative position of the fastener 12 and the rail 10, and the fixing slot 13 can make the first The bracket 20 and the second bracket 30 are locked at different positions, and the locking position is adjusted according to the length of the wave plate of the roof. The elliptical holes 221 and 321 of the connecting piece 22 and the locking piece 32 can also form a fine adjustment of the height of the track 10. 


In order to achieve the best assembly form. The solar panel fixing structure of the above embodiment can obtain the following benefits: the first bracket 20 and the second bracket 30 are fixed with different solar panels 40, and the height of the legs 21 of the first bracket 20 is h1, the second The height of the leg 31 of the bracket 30 is h2, and the height h1 of the leg 21 is lower than the height h2 of the stand 31, so that the adjacent two solar panels 40 are erected at different heights, so that the wind energy can easily be between the two solar panels 40. The lower end is blown, and the height difference between the solar panels 40 is passed to improve the heat dissipation effect of the solar panel 40.