CN108471281B - Solar panel fixing frame - Google Patents

Abstract

The invention relates to a solar panel fixing frame which comprises a fixing base and a connecting bracket, wherein the fixing base is arranged at the lower end of the connecting bracket, one side of the upper end of the connecting bracket can be connected with the first end of a first solar panel, the other side of the upper end of the connecting bracket can be connected with the first end of a second solar panel, the first solar panel is adjacently arranged with the second solar panel, and the first end of the first solar panel is opposite to the first end of the second solar panel. In the invention, the adjacent solar panels are connected through the connecting bracket, namely, the two adjacent solar panels share one connecting bracket, compared with the prior art, the integral structure of the solar photovoltaic system is simplified, the disassembly and the assembly are convenient, the disassembly and the assembly cost are obviously reduced, and the adjacent solar panels only need to be provided with a group of fixed foundations, so that the integral weight of the solar photovoltaic system can be reduced to a certain extent.

Description

Solar panel fixing frame

Technical Field

The invention relates to the technical field of solar energy, in particular to a solar panel fixing frame.

Background

Solar energy is the largest energy source on earth and has the advantages of universality, environmental protection, durability, economy and the like. The total amount of solar radiation reaching the ground in one year is tens of thousands times of the total amount of various energies consumed on the earth at present, and the solar energy can be taken anywhere, so that under the state of the art, the solar energy utilization has quite economic benefits, and along with the development of technology and the breakthrough of human development and utilization of solar energy technology, the solar energy has huge application potential and market space.

The solar photovoltaic power generation system is a novel power generation system which directly converts solar radiation energy into electric energy by utilizing the photovoltaic effect of a solar cell semiconductor material. The solar photovoltaic panel fixing frame is a specific frame used for placing, installing and fixing a photovoltaic module in a solar photovoltaic power generation system. In the prior art, each solar photovoltaic panel is provided with a fixing bracket, and four corners of the fixing bracket are respectively provided with a concrete foundation (such as cement piers). Such as: the invention patent in China with application number 201610668276.6 (application publication number CN 107769690A) discloses a bottom surface solar photovoltaic bracket, which comprises a fixing device and an adjusting device, wherein the fixing device sequentially comprises a concrete foundation, an embedded part, a supporting mechanism and a supporting plate. Another example is: chinese invention patent with application No. 201711014767.X (application publication No. CN 107634701 a), chinese invention patent with application No. 201711250667.7 (application publication No. CN 108011571 a), and the like. The existing fixing support is arranged on each solar panel respectively, so that the overall structure of the solar photovoltaic power generation system is complex, the installation and the disassembly are troublesome, and the fixing support is required to be arranged below four corners corresponding to each solar panel and below each side edge of the solar panel, so that the fixing support is complex in structure and heavy in overall weight.

In addition, when the photovoltaic power generation system is designed, the installation angle needs to be calculated by considering factors such as geographical conditions, latitude and the like, the inclination angles of the solar photovoltaic panels are different, and therefore the solar photovoltaic panel fixing support needs to have an angle adjusting function. However, the solar photovoltaic panel in the existing fixing support is fixed on the support, and cannot be adjusted according to the needs.

Disclosure of Invention

The invention aims to provide a solar panel fixing frame with a simple structure aiming at the prior art.

The invention aims to provide a solar panel fixing frame with convenient disassembly and assembly for a solar panel aiming at the prior art.

The invention aims to provide a solar panel fixing frame with an adjustable installation angle for a solar panel aiming at the prior art.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a solar panel mount, includes fixed basis, its characterized in that still includes the linking bridge, and the lower extreme of this linking bridge is provided with above-mentioned fixed basis, and one side of linking bridge can be connected with the first end of first solar panel, and the opposite side can be connected with the first end of second solar panel, and first solar panel sets up with the second solar panel is adjacent, and the first end of first solar panel is relative with the first end of second solar panel.

In order to further reduce the weight of the solar panel fixing frame and further reduce the overall weight of the solar photovoltaic system, the number of the fixing bases (cement piers which are generally precast in the prior art) is at least two, and the number of the fixing bases is matched with the length of the solar panel (namely, when the solar panel is longer, a plurality of fixing bases are needed, and when the solar panel is shorter, the number of the fixing bases is reduced), and the fixing bases are arranged at intervals along the length direction of the solar panel. In the prior art, each solar panel is at least provided with two groups of fixing bases on two sides along the length direction of the solar panel, the number of the fixing bases is necessarily matched with the length of the solar panel, namely, the number of each group of fixing bases is generally determined by the length of the solar panel, in this case, two adjacent solar panels share one group of fixing bases, and each solar panel in the prior art needs two groups of fixing bases, so that the invention can reduce the overall weight of the solar photovoltaic system by greatly reducing the number of the fixing bases.

For effectively adjusting the inclination of solar panel, the both sides of linking bridge upper end are provided with first rotation coupling assembling and second rotation coupling assembling respectively, and this first rotation coupling assembling can be with first solar panel's first end rotationally be connected to the linking bridge on and through locating fastener detachably location, and the second rotation coupling assembling can be with second solar panel's first end rotationally be connected to the linking bridge on and through locating fastener detachably location.

The first rotating connecting component and the second rotating connecting component can be respectively realized in various specific modes, and can be of the same structure or different structures. The first rotating connecting component and the second rotating connecting component adopt the same structure, and both comprise a first clamp, a rotating piece and a connecting piece, wherein the first clamp can clamp the first end of the first solar panel or the first end of the second solar panel, one end of the rotating piece is connected with the first clamp, a rotating hole is formed in the other end of the rotating piece, a connecting shaft penetrates through the rotating hole, one end of the connecting piece is connected with the rotating piece through the connecting shaft, and the connecting shaft can move along the rotating hole to drive the connecting piece to rotate relative to the rotating piece, and the other end of the connecting piece is connected with a connecting bracket.

For further making things convenient for the dismouting of solar panel, first anchor clamps include two splint, can insert above-mentioned first solar panel's first end or second solar panel's first end between two splint, and each splint can dismantle with the rotation piece respectively and be connected.

The detachable connection between the clamping plates and the rotating member can be realized in various ways, and preferably, each clamping plate is provided with a socket, and one end of the rotating member is provided with a cutting which can be inserted into the socket.

In order to enable each connecting piece to rotate better relative to the corresponding rotating piece, the shape of the rotating hole is preferably arc-shaped.

In order to further facilitate the disassembly and assembly of the solar photovoltaic system, a second clamp is formed at the other end of the connecting piece and used for clamping the connecting bracket.

Preferably, the connecting bracket comprises a first cross beam and a second cross beam which are arranged in a vertically staggered manner, an inclined beam is arranged between the first cross beam and the second cross beam, the first rotating connecting component and the second rotating connecting component are respectively arranged at the upper end and the lower end of the connecting bracket, the second clamp of the first rotating connecting component and the second clamp of the second rotating connecting component respectively clamp the first cross beam and the second cross beam, the upper end of the inclined beam is fixedly connected with the first cross beam, and the lower end of the inclined beam is fixedly connected with the rotating piece.

The connecting bracket can be directly fixed on a fixed foundation, the second cross beam is fixedly connected with the fixed foundation through the connecting component, and the vertical relative position of the second cross beam and the connecting component can be adjusted, so that the installation height of the solar panel can be adjusted.

Compared with the prior art, the invention has the advantages that: in the prior art, the bottom of each solar panel is required to be provided with a bracket to support the solar panel, so that the whole structure of the solar photovoltaic system is complex, and the solar photovoltaic system is troublesome to assemble and disassemble and high in assembly and disassembly cost. In the invention, the adjacent solar panels are connected through the connecting bracket, namely, the two adjacent solar panels share one connecting bracket, compared with the prior art, the integral structure of the solar photovoltaic system is simplified, the disassembly and the assembly are convenient, the disassembly and the assembly cost is obviously reduced, and the adjacent solar panels only need to be provided with a group of fixed foundations, so that the integral weight of the solar photovoltaic system can be reduced to a certain extent.

Drawings

Fig. 1 is a schematic structural view of a solar panel fixing frame in embodiment 1 of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 in another direction;

fig. 3 is a schematic structural diagram of a solar panel fixing frame in embodiment 2 of the present invention;

FIG. 4 is an enlarged view of section I of FIG. 1;

FIG. 5 is an enlarged view of section II of FIG. 1;

FIG. 6 is an enlarged view of portion III of FIG. 2;

FIG. 7 is an enlarged view of the portion IV of FIG. 3;

FIG. 8 is a schematic structural view of a first rotary connecting assembly or a second rotary connecting assembly according to embodiment 1 of the present invention;

FIG. 9 is an exploded view of the first or second rotary joint assembly according to embodiment 1 of the present invention;

FIG. 10 is a schematic view showing the structure of a first clamp in embodiment 1 of the present invention;

FIG. 11 is a schematic view showing the structure of a rotary member according to embodiment 1 of the present invention;

fig. 12 is a schematic structural diagram of a connector in embodiment 1 of the present invention.

Detailed Description

The invention is described in further detail below with reference to the embodiments of the drawings.

Example 1:

as shown in fig. 1, 2, 4-6 and 8-12, a solar panel fixing bracket includes a connecting bracket 3, a fixing base 4 is disposed at a lower end of the connecting bracket 3, one side of the connecting bracket 3 can be connected to a first end 11 of a first solar panel 1 (i.e. a solar photovoltaic panel), the other side can be connected to a first end 21 of a second solar panel 2, the first solar panel 1 is disposed adjacent to the second solar panel 2, and the first end 11 of the first solar panel 1 is opposite to the first end 21 of the second solar panel 2 (as shown in fig. 1). The plurality of groups of adjacent first solar panels 1 and second solar panels 2 arranged side by side can be connected by a plurality of connecting brackets 3, thereby forming a solar photovoltaic system. The solar photovoltaic system in this embodiment is applied to a roof, and because of the limited bearing capacity of the roof, the number of solar panels in the system is small, specifically two, namely the first solar panel 1 and the second solar panel 2.

In the prior art, the bottom of each solar panel is required to be provided with a bracket to support the solar panel, so that the whole structure of the solar photovoltaic system is complex, and the solar photovoltaic system is troublesome to assemble and disassemble and high in assembly and disassembly cost. In the invention, the adjacent solar panels are connected through the connecting bracket 3, namely, two adjacent solar panels share one connecting bracket 3, compared with the prior art, the integral structure of the solar photovoltaic system is simplified, the dismounting is convenient, the dismounting cost is low, and the adjacent solar panels only need to be provided with one group of fixed foundations 4, so that the integral weight of the solar photovoltaic system can be reduced to a certain extent.

Each connecting bracket 3 includes a first beam 31, a second beam 32, and an oblique beam 33 connected between the beams, wherein the first beam 31 and the second beam 32 are arranged in a vertically staggered manner, and the first beam 31 is located above the second beam 32. In this embodiment, each of the connecting brackets 3 includes three diagonal members 33 disposed at intervals along the length of each of the cross members, wherein two diagonal members 33 are disposed between opposite ends of the first cross member 31 and the second cross member 32, respectively, and the remaining one diagonal member 33 is disposed between the two diagonal members 33. The second cross member 32 of each connecting bracket 3 is connected to the fixed base 4 via the connecting member 6. Further, the fixing foundations 4 are precast cement piers and are used for fixing the connecting support 3, in this embodiment, the number of the fixing foundations 4 is four, and the fixing foundations 4 are all arranged at intervals along the length direction of the solar panel. Correspondingly, the connecting member 6 is a plate, and comprises a first plate body 61 extending vertically and a second plate body 62 extending transversely, wherein the first plate body 61 is fixedly connected with the corresponding second cross beam 32, and the second plate body 62 is fixedly connected with the corresponding fixed foundation 4.

Further, the two ends of the connecting bracket 3 are respectively provided with a first rotating connecting component 501 and a second rotating connecting component 502, specifically, the first rotating connecting component 501 and the second rotating connecting component 502 are respectively disposed on the first beam 31 and the second beam 32, and are respectively disposed along the two beams at intervals, and in this embodiment, five groups of the first rotating connecting component 501 and the second rotating connecting component 502 are respectively disposed on the two beams. Wherein the first rotational coupling assembly 501 is capable of rotatably coupling the first end 11 of the first solar panel 1 to the coupling bracket 3 and removably positioned by the positioning fastener 82, and the second rotational coupling assembly 502 is capable of rotatably coupling the first end 21 of the second solar panel 2 to the coupling bracket 3 and removably positioned by the positioning fastener 82. Thus, the inclination angles of the first solar panel 1 and the second solar panel 2 can be adjusted by the first rotary connecting assembly 501 and the second rotary connecting assembly 502 for different installation sites and installation occasions.

The first rotary connecting assembly 501 and the second rotary connecting assembly 502 may have different structures, and may have the same structure. In this embodiment, the first rotating connection assembly 501 and the second rotating connection assembly 502 adopt the same structure, and both include a first clamp 51, a rotating member 52 and a connecting member 53, where the first clamp 51 can clamp the first end 11 of the first solar panel 1 or the first end 21 of the second solar panel 2, so that the solar panel can be conveniently mounted on the connection bracket 3, and the solar panel can be conveniently mounted and dismounted, and damage to the solar panel can be avoided. One end of the rotating member 52 is connected to the first clamp 51, a rotating hole 521 is formed in the other end, a connecting shaft 81 is inserted into the rotating hole 521, one end of the connecting member 53 is connected to the rotating member 52 through the connecting shaft 81, the connecting shaft 81 can move along the rotating hole 521 to drive the connecting member 53 to rotate relative to the rotating member 52, and the other end of the connecting member 53 is connected to the connecting bracket 3. Thereby enabling the two ends of each solar panel to rotate relative to the corresponding connecting bracket 3 respectively, and further adjusting the inclination angle of the solar panel.

The first clamp 51 includes two clamping plates 511, in this embodiment, the first clamp 51 is an integral piece, the two clamping plates 511 are perpendicular to each other, and the first end 11 of the first solar panel 1 or the first end 21 of the second solar panel 2 can be clamped between the two clamping plates 511. Wherein the clip 511 located below is supported at the bottom of the first end 11 of the first solar panel 1 or the bottom of the first end 21 of the second solar panel 2, and the other clip 511 is clamped on the side of the first end 11 of the first solar panel 1 or the side of the first end 21 of the second solar panel 2, and the free end of the clip 511 is bent inward with respect to the first clamp 51 to form a clip 512, the clip 512 being capable of being hooked on the top edge of the first end 11 of the first solar panel 1 or the top edge of the first end 21 of the second solar panel 2. Preferably, the end edges of the hooks 512 are provided with protruding teeth 512a at intervals along the length direction thereof, so that the hooks 512 can be better hooked at corresponding positions of the corresponding solar panels.

Further, each clamping plate 511 is provided with a socket 511a, the rotating member 52 is a flat plate member, one end of the rotating member is recessed inwards to form a rotating groove 522, two sides of the rotating groove 522 are respectively provided with a cutting 523, the two cutting 523 are mutually perpendicular and can be respectively inserted into the corresponding sockets 511a, and the rotating groove 522 can encircle the periphery of the corner of the first clamp 51, so that the rotating member 52 and the first clamp 51 can form a firm detachable connection.

In this embodiment, the outer shape of the rotation hole 521 is arc-shaped and protrudes downward, and two rotation holes 521 are symmetrically arranged, and each rotation hole 521 is provided with one connection shaft 81, so that not only the rotation member 52 and the connection member 53 can be firmly connected, but also the rotation member 52 and the connection member 53 can rotate relatively more smoothly. In addition, the other end of the rotating member 52 is further provided with a first fixing hole 524, and the first fixing hole 524 can be fixedly connected with a corresponding cross beam, and in the rotating connection assembly connected with the first cross beam 31, the first fixing hole 524 on the rotating member 52 is empty, and in the rotating connection assembly connected with the second cross beam 32, the first fixing hole 524 on the rotating member 52 is fixedly connected with a corresponding end of the oblique beam 33 through a first fixing member 524 a. This can stabilize the internal structure of the connection bracket 3.

The connecting piece 53 is also a plate, and includes a vertical plate 53a extending vertically and a horizontal plate 53b extending horizontally, the free end of the vertical plate 53b is enlarged and provided with a second fixing hole 532, and the connecting shaft 81 is inserted into the corresponding second fixing hole 532, and the second fixing hole 532 is a round hole. The free end of the cross plate 53b is formed with a second clamp 531 having a third fixing hole 533 (the entire cross plate 53b in this embodiment constitutes the second clamp 531), the second clamp 531 is clamped to the corresponding cross member, and is fixedly connected to the cross member by a second fixing member 533a penetrating through the third fixing hole 533, and the third fixing hole 533 is also a circular hole.

The corresponding ends of the first cross member 31 and the diagonal member 33 are fixedly connected by the long hole 71 and the fastener 72 provided in the long hole 71, and the second cross member 32 and the connecting member 66 are also fixedly connected by the long hole 71 and the fastener 72 provided in the long hole 71. Specifically, the first plate body 61 and the second beam 32 are respectively provided with vertically extending elongated holes 71, so that the mounting height of the solar panel can be adjusted by adjusting the vertically relative positions of the second beam 32 and the first plate body 71. In the rotation process of the solar panel relative to the connecting bracket 3, the internal structure of the connecting bracket 3 is correspondingly adjusted so as to avoid the influence of the internal stress applied to the connecting bracket 3 in the rotation process of the solar panel on the structural stability of the connecting bracket 3. In this embodiment, the fastening member 72, the first fastening member 524a, and the second fastening member 533a are bolt-nut assemblies, the connecting shaft 81 is a shaft portion of a bolt, the positioning fastening member 82 is a nut of the bolt-nut assemblies, and of course, other fastening members of the prior art may be used for the fastening member 72, the first fastening member 524a, and the second fastening member 533a, and other possible shaft structures may be used for the connecting shaft 81, and other members capable of fixing the connecting shaft 81 may be used for the positioning fastening member 82. Each of the above alternatives is within the scope of the present invention.

When the solar panels are installed, only two ends of the solar panels are required to be respectively clamped into the corresponding first clamps 51 of the two-side connecting brackets 3, so that the solar panels are obliquely arranged. When the inclination angle of the solar panel needs to be adjusted, the corresponding positioning fastening piece 82 is unscrewed, the connecting shaft 81 moves along the rotating hole 521, and after the inclination angle is adjusted to the required angle, the corresponding positioning fastening piece 82 is screwed again. In the process of disassembly, each insert 523 is pulled out of the corresponding socket 511a, so that the solar panel is separated from the corresponding connecting bracket 3, and finally the first clamp 51 is removed from the solar panel.

Example 2:

as shown in fig. 3 and 7, unlike the embodiment 1, the solar photovoltaic system of the present embodiment is applied to the ground, so that a plurality of solar panels can be used, and five sets of the first solar panel 1 and the second solar panel 2 are applied in the present embodiment, and the number of solar panels used is also adjusted accordingly according to the installation requirement.

In addition, in this embodiment, the connecting member 6 is a column, the fixed base 4 is fixedly connected to the second beam 32 through the column, and the connection between the two ends adopts a fixed connection manner of the long hole 71 and the fastener 72, where the fastener 72 is also a bolt-nut assembly.

Claims (6)

1. The solar panel fixing frame comprises a fixing base (4) and is characterized by further comprising a connecting bracket (3), wherein the fixing base (4) is arranged at the lower end of the connecting bracket (3), one side of the connecting bracket (3) can be connected with a first end (11) of a first solar panel (1), the other side of the connecting bracket can be connected with a first end (21) of a second solar panel (2), the first solar panel (1) is arranged adjacent to the second solar panel (2), and the first end (11) of the first solar panel (1) is opposite to the first end (21) of the second solar panel (2);

the two sides of the upper end of the connecting bracket (3) are respectively provided with a first rotating connecting component (501) and a second rotating connecting component (502), the first rotating connecting component (501) can rotationally connect the first end (11) of the first solar panel (1) to the connecting bracket (3) and can be detachably positioned through a positioning fastener (82), and the second rotating connecting component (502) can rotationally connect the first end (21) of the second solar panel (2) to the connecting bracket (3) and can be detachably positioned through the positioning fastener (82);

the first rotating connecting component (501) and the second rotating connecting component (502) comprise a first clamp (51), a rotating piece (52) and a connecting piece (53), the first clamp (51) can clamp a first end (11) of the first solar panel (1) or a first end (21) of the second solar panel (2), one end of the rotating piece (52) is connected with the first clamp (51), a rotating hole (521) is formed in the other end of the rotating piece, a connecting shaft (81) is penetrated in the rotating hole (521), one end of the connecting piece (53) is connected with the rotating piece (52) through the connecting shaft (81), and the connecting shaft (81) can move along the rotating hole (521) to drive the connecting piece (53) to rotate relative to the rotating piece (52), and the other end of the connecting piece (53) is connected with the connecting bracket (3);

the first clamp (51) comprises two clamping plates (511), the first end (11) of the first solar panel (1) or the first end (21) of the second solar panel (2) can be clamped between the two clamping plates (511), and each clamping plate (511) is detachably connected with the rotating piece (52); the outline of the rotating hole (521) is arc-shaped.

2. A solar panel holder according to claim 1, wherein the number of the fixing bases (4) is at least two, and the number of the fixing bases is matched with the length of the solar panel, and the fixing bases (4) are arranged at intervals along the length direction of the solar panel.

3. The solar panel holder according to claim 1, wherein each of the clamping plates (511) is provided with a socket (511 a), and one end of the rotating member (52) is provided with a cutting (523) capable of being inserted into the socket (511 a).

4. A solar panel holder according to claim 1, characterized in that the other end of the connecting piece (53) is formed with a second clamp (531), which second clamp (531) is adapted to clamp the connecting bracket (3).

5. The solar panel fixing rack according to claim 4, wherein the connecting bracket (3) comprises a first beam (31) and a second beam (32) which are arranged in a vertically staggered manner, an inclined beam (33) is arranged between the first beam (31) and the second beam (32), the first rotating connecting component (501) and the second rotating connecting component (502) are respectively arranged at the upper end and the lower end of the connecting bracket (3), the second clamp (531) of the first rotating connecting component (501) and the second clamp (531) of the second rotating connecting component (502) respectively clamp the first beam (31) and the second beam (32), the upper end of the inclined beam (33) is fixedly connected with the first beam (31), and the lower end of the inclined beam (33) is fixedly connected with the rotating piece (52).

6. A solar panel holder according to claim 5, characterized in that the second cross member (32) is fixedly connected to the fixed foundation (4) by means of a connecting member (6), and that the vertical relative position of the second cross member (32) and the connecting member (6) is adjustable.