JP3243239U - solar panel mount - Google Patents

Abstract

A solar panel mount is provided that reduces assembly time and increases support effectiveness. A solar panel mount (10) comprises a bottom plate (20), two oblique braces (30) and two positioning plates (40). The two diagonal braces are separately connected at their ends to opposite ends of the bottom plate and diverge diagonally in a direction opposite to the bottom plate. The two positioning plates have one ends separately connected to the tips of the two slanted braces, and have a first protrusion fitting portion 43 and a rivet nut hole 47 adjacent to each other on their top surfaces. The rivet nut holes are arranged to correspond to the rivet nuts. The two oblique braces are arranged relative to each other and have a second protrusion fitting portion 33 and a fixing hole 34 respectively. Each second projection fitting portion extends outward and toward the positioning plate. In the two oblique braces arranged relative to each other, the two second projection fittings and the two fixing holes are arranged to intersect. [Selection drawing] Fig. 1

Description

TECHNICAL FIELD The present invention relates to a solar panel mount, and more particularly to a solar panel mount capable of shortening the assembly time and increasing the support effect.

The development of green energy is considered an important national policy as awareness of environmental protection increases. One way to do this is to install solar panels in the roof space to generate electricity, that is, to effectively utilize the space and generate green energy. Specifically, a large space is required to install a solar panel. Installing solar panels on roofs exposed to sunlight is one way to make efficient use of space. In a solar panel installation operation, the solar panel frame and the roof are held together by numerous nuts and bolts. Technologies related to solar panel mounts are disclosed in Patent Documents 1 and 2 and the like. However, the method of assembling a frame with a large number of bolts and nuts is not only expensive and complicated in structure, but it also takes time and effort to tighten the bolts and nuts on the roof. work increases, man-hours and risks often increase. In addition, since the outdoor frame must withstand external force, it is necessary to increase the support effect of the frame.

Taiwan Patent No. I740774 Taiwan Utility Model No. M619347

SUMMARY OF THE INVENTION The main objective of the present invention is to provide a solar panel mount that can shorten the assembly time and increase the support effect.

To solve the above-mentioned problems, the solar panel mounting system comprises a bottom plate, two diagonal braces, two positioning plates and two rivet nuts. The two oblique braces are separately connected at their ends to opposite ends of the bottom plate and extend obliquely in the extending direction of the bottom plate. The two positioning plates have one ends separately connected to the tips of the two oblique braces, and have mutually adjacent first projection fittings and rivet nut holes on their top surfaces. Each first protrusion fitting portion extends parallel to the extending direction of the bottom plate. Two rivet nuts are respectively placed in the rivet nut holes of the positioning plate. The two oblique braces are arranged relative to each other, each having a second projection fitting and a fixing hole. Each second projection fitting portion extends outward and toward the positioning plate. In the two oblique braces arranged relative to each other, the two second projection fittings and the two fixing holes are arranged to intersect.

Due to the structural features mentioned above, when supporting the steel rail on the top surface of the positioning plate, the two oblique braces spread along the extension direction of the bottom plate due to the flexibility of the metal to produce a supporting effect. The first protrusive fittings of the two positioning plates are hooked on corresponding parts (eg, recessed grooves) of the steel rail. Then, two rivet nuts are tightened into the two rivet nut holes and deformed to clamp the steel rail, completing the positioning and installation of the steel rail. In addition, since the above-mentioned work does not require the use of a large number of fasteners such as bolts and nuts, the frame according to the present invention can reduce costs, shorten assembly time, and improve safety during work. . When the connecting member is attached to increase the maintenance effect, the connecting member is hooked to the second protrusion fitting portion of the two oblique braces of the pedestal to adjust the pedestal. After the pedestal is adjusted, remove the connecting member from the second protrusion fitting part of the two oblique braces, and then bolt the connecting member to the fixing holes of the two oblique braces to increase the support effect. be able to.

In a relatively preferred case, the rivet nut is a hexagonal rivet nut if the shape of the rivet nut hole is hexagonal. Due to the constructional features described above, the rivet nut can be positioned without being rotated involuntarily.

In a relatively preferred case, the bottom plate has positioning grooves. The locating groove corresponds to the thread of the self-tapping screw. Due to the structural features described above, it is possible to prevent the self-tapping screw from becoming loose and coming off.

The detailed structure, features, assembly or usage of the solar panel mounting system according to the present invention will be made clear through the detailed description of the embodiments below. In addition, the following detailed description and the embodiments presented by the present invention are merely examples for explaining the present invention, and it should be understood by those who have common sense in the field related to the present invention that the scope of the present invention cannot be limited. Then you should be able to understand.

1 is a perspective view of a solar panel mount according to an embodiment of the present invention; FIG. FIG. 2 is a plan view of the mounting of the solar panel mount on the steel rail according to one embodiment of the present invention; FIG. 4 is a plan view showing a process of combining a solar panel mount and a connecting member according to an embodiment of the present invention; FIG. 2 is a plan view showing a combination of a solar panel mount and a connecting member according to an embodiment of the present invention;

A solar panel mount according to the present invention will be described below with reference to the drawings. In the specification and drawings, directional terms are expressed based on the directions in the drawings. Like numbers indicate structural features of the same or similar parts.

As shown in FIGS. 1 and 2, the pedestal 10 according to one embodiment of the present invention comprises a bottom plate 20, two diagonal braces 30, two positioning plates 40 and two rivet nuts 60. As shown in FIG.

The bottom plate 20 has a base 21 , a fixing hole 22 , a positioning groove 23 and two legs 24 . A fixing hole 22 is formed in the base 21 . Since the positioning groove 23 corresponds to the thread of the self-tapping screw, it is possible to prevent the self-tapping screw from becoming loose and coming off. Two legs 24 extend downward and obliquely from two opposite long sides of the base 21 to increase the strength of the whole bottom plate 20 . Due to the structural features described above, thin steel plates can be used depending on the forces that the bottom plate 20 can withstand.

The two diagonal braces 30 each have a diagonal support 31 and two first wings 32 . The two first wings 32 are connected to two opposite long sides of the diagonal support 31 to increase the strength of the overall structure of the diagonal brace 30 . As shown in FIG. 2 , the two diagonal braces 30 are separately connected to opposite ends of the base 21 of the bottom plate 20 at the ends of the diagonal supports 31 , and extend diagonally in the extending direction D of the bottom plate 20 .

The two positioning plates 40 have a support portion 41 and two second wings 42 . One end of each support 41 is separately connected to the tip of the diagonal support 31 of the diagonal brace 30 to support the steel rail 50 (see FIG. 2). The two second wings 42 are connected to the two opposite long sides of the support 41 to increase the strength of the overall structure of the positioning plate 40 .

The supporting portion 41 of each positioning plate 40 includes a first projection fitting portion 43 formed by press working, a perforation 45 corresponding to the first projection fitting portion 43, and a rivet nut hole adjacent to the first projection fitting portion 43. 47. In this embodiment, since the hexagonal rivet nut is used, the shape of the rivet nut hole 47 is hexagonal, so that the rivet nut can be positioned without being rotated freely. Each first protrusion fitting portion 43 extends parallel to the extending direction D of the bottom plate 20 and extends in the opposite direction. Two rivet nuts 60 are installed in the rivet nut holes 47 of the positioning plate 40 one by one.

The two oblique braces 30 are arranged relative to each other, each having a second protrusion fitting portion 33 and a fixing hole 34 . Each second projection fitting portion 33 extends outward and toward the positioning plate 40 . In the two oblique braces 30 arranged relative to each other, the two second protrusion fitting portions 33 and the two fixing holes 34 are formed to intersect.

The steel rail 50 has a portion, such as a recessed groove (not shown in the figure), for receiving the first projection fitting portion 43 . When assembling the frame 10 and the steel rail 50 , the steel rail 50 is supported by the support portions 41 of the two positioning plates 40 . The first protrusion fitting portions 43 of the two positioning plates 40 are not locked into the grooves of the steel rail 50 and are caught. Subsequently, the two slanted braces 30 bear the weight of the steel rail 50 and expand outward along the extending direction D of the bottom plate 20 due to the flexibility of the metal so that the first protrusions of the two positioning plates 40 are fitted. The portion 43 and the concave groove of the steel rail 50 are fitted. Subsequently, the two rivet nuts 60 are tightened into the two rivet nut holes 47 with a tool. Subsequently, as shown in FIG. 2, the steel rail 50 is sandwiched by partially deforming the two rivet nuts 60, and the positioning and mounting of the steel rail 50 are completed.

Subsequently, as shown in FIGS. 3 and 4, when attaching the connecting member 70 to increase the maintenance effect, the connecting member 10 is hung on the second projection fitting portions 33 of the two diagonal braces 30 of the pedestal 10, and the pedestal is mounted. Adjust 10. After the adjustment of the frame 10 is completed, the connecting members 70 are removed from the second protrusion fitting portions 33 of the two oblique braces 30, and then the connecting members 70 are bolted into the fixing holes 34 of the two oblique braces 30. can increase the support effect.

Summarizing the above, in the present invention, there is no need to use a large number of fastening members (bolts and nuts) to assemble the gantry 10 and the steel rail 50, thus reducing the cost and reducing the assembly time, i.e. the roof work. It is possible to shorten the man-hours required for installation and improve safety during work. Further, by connecting a plurality of pedestals 10 with connecting members 70, the support effect can be increased.

10: Frame 20: Bottom plate 21: Base 22: Fixing hole 23: Positioning groove 24: Leg 30: Diagonal brace 31: Diagonal support 32: First wing
33: Second projection fitting portion 34: Fixing hole 40: Positioning plate 41: Supporting portion 42: Second wing portion 43: First projection fitting portion 45: Perforation 47: Rivet nut hole 50: Steel rail 60: Rivet nut 70: Connecting member D: Extension direction of bottom plate

Claims (3)

Equipped with a bottom plate, two diagonal braces and two positioning plates,
two said oblique braces, whose ends are separately connected to opposite ends of said bottom plate, extend obliquely from said bottom plate and extend along the extending direction of said bottom plate;
The two positioning plates have one ends separately connected to the tips of the two oblique braces, and have adjacent first projection fitting portions and rivet nut holes on the top surfaces thereof, respectively. The protrusion fitting portion extends parallel to the extending direction of the bottom plate,
the two oblique braces are arranged relative to each other, each having a second projection fitting portion and a fixing hole, each of the second projection fitting portions extending outward and toward the positioning plate;
The solar panel mounting frame, wherein the two of the second projection fitting portions and the two of the fixing holes are arranged to intersect in the two oblique braces arranged relative to each other. The solar panel mount according to claim 1, wherein the rivet nut hole is hexagonal corresponding to the hexagonal rivet nut. The solar panel mount according to claim 1, wherein the bottom plate has a positioning groove, and the positioning groove can be restrained from corresponding to the thread of the self-tapping screw.

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