CN221294593U - Supporting structure is put to one side to photovoltaic panel - Google Patents

Abstract

The utility model discloses a photovoltaic panel inclined support structure, which comprises: the photovoltaic panel is inclined and leaned on the inclined support frame in one direction, and the photovoltaic panel is inclined and leaned on the inclined support frame. The gravity load of a plurality of photovoltaic panels, diagonal bracing frames and pins is transmitted to the sand through the support row feet which are in contact with the sand in multiple sides in a dispersed manner, so that the photovoltaic panels lean against the diagonal bracing frames in one direction to be stable, the problem that the photovoltaic panels are unstable in multidirectional inclination due to the fact that the local contact support gravity load is large, different heights are settled and sunk into the sand is avoided, and the problem that four universal wheels are settled and sunk into the sand in different heights is solved.

Description

Supporting structure is put to one side to photovoltaic panel

Technical Field

The utility model relates to a photovoltaic panel inclined support structure, and belongs to the technical field of photovoltaic panel construction structures.

Background

When the photovoltaic panel is transported to a construction site by a large truck, the photovoltaic panel is limited by construction piles and a frame body on the construction site, the whole packaged photovoltaic panel is required to be transported to a designated point at intervals in batches by a forklift, and when the photovoltaic panel is disassembled by being transported to the designated point, the photovoltaic panel is required to be pre-leaned to an inclined state by a support frame in order to avoid collapse of the photovoltaic panel.

The existing support frame is disclosed as CN216036371U, and the disclosed technology is as follows: the photovoltaic module is placed on the inclined supporting seat, so that the module is more convenient to place, and toppling is avoided; although the photovoltaic panel can be inclined and placed by means of the inclined support, the whole gravity support is the universal wheels arranged at four corners of the base, the four universal wheels are in partial contact with and support the heavy load on the sand, and the problem that the photovoltaic panel is unstable in multidirectional inclination due to the fact that the four universal wheels are different in height and sink into the sand exists.

Disclosure of utility model

In order to solve the technical problems, the utility model provides a photovoltaic panel inclined support structure.

The utility model is realized by the following technical scheme.

The utility model provides a photovoltaic panel inclined support structure, which comprises the following components:

the photovoltaic panel is inclined and leaned on the inclined support frame in one direction, and the photovoltaic panel is inclined and leaned on the inclined support frame.

Comprising the following steps: the bottom of the supporting plate is provided with a plurality of rows of supporting row feet which are distributed at intervals and can be contacted with the sand for supporting, and the supporting row feet are provided with jacks;

The pin is tightly clamped with the insertion hole of the supporting plate, inserted into the two ends of the connection and suspended;

the inclined support is obliquely fixed on the end part of the pin;

and the photovoltaic panel is inclined and leaned on the inclined support frame.

The two pins are arranged, and the inclined support frame comprises two inclined support backs which are respectively and obliquely fixed on the two pins; the top and bottom parts between the inclined support backs are fixed by screw rod screwing and drawknot.

The supporting plate is formed by the bottom surface of a packaging and transporting wooden box.

The pins are formed by C-shaped ridge beams forming a photovoltaic bracket.

Binding holes for installing binding bands are formed in the pin hanging ends at the lower part of the supporting plate.

The photovoltaic panel is placed on the supporting plate and leans against the inclined supporting back to limit and stabilize; the top end of the binding belt is detachably fixed with the screw rod positioned at the top of the inclined support back, and the bottom end of the binding belt is detachably fixed in the binding hole of the pin.

The binding band is a plastic packaging band for packaging a plurality of photovoltaic panels.

The utility model has the beneficial effects that: the gravity load of a plurality of photovoltaic panels, diagonal bracing frames and pins is transmitted to the sand through the support row feet which are in contact with the sand in multiple sides in a dispersed manner, so that the photovoltaic panels lean against the diagonal bracing frames in one direction to be stable, the problem that the photovoltaic panels are unstable in multidirectional inclination due to the fact that the local contact support gravity load is large, different heights are settled and sunk into the sand is avoided, and the problem that four universal wheels are settled and sunk into the sand in different heights is solved.

Drawings

FIG. 1 is a schematic view of the structure of a photovoltaic panel of the present utility model resting on a diagonal frame;

FIG. 2 is a schematic diagram of the structure of the present utility model;

in the figure: 1-a supporting plate; 11-supporting pin arrangement; 12-jack; 2-pins; 21-binding holes; 22-a strap; 3-a diagonal brace; 31-a diagonal back support; 32-screw; 4-photovoltaic panel.

Detailed Description

The technical solution of the present utility model is further described below, but the scope of the claimed utility model is not limited to the above.

As shown in fig. 1-2.

The application provides a photovoltaic panel inclined support structure, which comprises the following components:

The supporting plate 1 is formed by the bottom surface of a packaging and transporting wooden box, a plurality of rows of supporting row feet 11 are arranged at the bottom of the supporting plate 1 at intervals, the supporting row feet 11 are in contact support with multiple surfaces of a sand, and insertion holes 12 are formed in the supporting row feet 11.

And one end of the pin 2 stretches into the jack 12 at the bottom of the supporting plate 1 and is suspended, the pin 2 is tightly clamped and inserted into the jack 12 of the supporting plate 1, the pin 2 is formed by adopting a C-shaped ridge beam forming a photovoltaic bracket, a binding hole 21 is formed in the suspending end of the pin 2 at the lower part of the supporting plate 1, and the binding hole 21 is used for binding one end of a mounting binding band 22.

The other end of the pin 2 is fixed with an inclined support frame 3, and the inclined support frame 3 is used for the photovoltaic panel 4 to lean for 10-15 degrees; the number of the pins 2 is two, the diagonal bracing frame 3 comprises two diagonal bracing backs 31 which are obliquely fixed at the other ends of the two pins 2 through bolts respectively, and the top and bottom parts between the diagonal bracing backs 31 are fixed through screw rods 32 in a screwing and drawknot mode.

The screw rod 32 positioned at the top of the inclined support back 31 is detachably fixed with a binding belt 22, the bottom end of the binding belt 22 is detachably fixed in the binding hole 21 of the pin 2, and the middle part of the binding belt 22 limits and stabilizes the photovoltaic panel 4 which is placed on the support plate 1 and leans against the inclined support back 31; the strap 22 is a plastic packaging strip that packages the plurality of photovoltaic panels 4.

Because the pin 2 is tightly clamped and inserted into the jack 12 of the supporting plate 1, after the photovoltaic panel 4 leans against the inclined support frame 3 by 10-15 degrees, small parts of gravity loads of the photovoltaic panels 4 are dispersed and transferred to the inclined support frame 3, most of gravity loads of the photovoltaic panels 4 are dispersed and transferred to the supporting plate 1, the whole is stably erected by most of gravity loads of the photovoltaic panels 4, the inclined support frame 3 and the pin 2, at the moment, the gravity loads of the photovoltaic panels 4, the inclined support frame 3 and the pin 2 are dispersed and transferred to the sand through the supporting row feet 11 which are in contact with the sand in multiple sides, so that the photovoltaic panels 4 lean against the inclined support frame 3 in one direction to be stable, different height settlement and sinking in the sand caused by the fact that the local contact supporting gravity loads are large are caused, and the problem that the photovoltaic panels are unstable in multiple directions caused by the fact that four universal wheels sink in the sand is solved.

The detachable fixing of the application can adopt detachable connection forms such as binding, bolts, nuts and the like.

Claims (7)

1. A photovoltaic panel diagonal support structure, comprising:

The photovoltaic panel (4) leans against the photovoltaic panel inclined support structure stabilized on the inclined support (3) in one direction only;

the bottom of the supporting plate (1) is provided with a plurality of rows of supporting row feet (11) which are distributed at intervals and can be contacted with the sand for supporting, and the supporting row feet (11) are provided with jacks (12);

the pins (2) are tightly clamped with the insertion holes (12) of the supporting plate (1) in an interference manner, inserted into the two ends of the connection and suspended;

the inclined support (3) is obliquely fixed on the end part of the pin (2);

and the photovoltaic panel (4), wherein the photovoltaic panel (4) leans on the inclined support (3).

2. The photovoltaic panel bevel support structure of claim 1, wherein: the number of the pins (2) is two, and the diagonal bracing frame (3) comprises two diagonal bracing backs (31) which are respectively and obliquely fixed on the two pins (2); the top and the bottom of the inclined support backs (31) are fixed by screwing and pulling the knots through the screw rods (32).

3. The photovoltaic panel bevel support structure of claim 1, wherein: the supporting plate (1) is formed by the bottom surface of a packaging and transporting wooden box.

4. The photovoltaic panel bevel support structure of claim 1, wherein: the pins (2) are formed by C-shaped ridge beams forming a photovoltaic bracket.

5. The photovoltaic panel bevel support structure of claim 1, wherein: the overhanging end of the pin (2) at the lower part of the supporting plate (1) is provided with a binding hole (21) for installing a binding belt (22).

6. The photovoltaic panel bevel support structure of claim 5, wherein: the solar panel support also comprises a bandage (22) which is arranged on the support plate (1) and used for limiting and stabilizing the photovoltaic panel (4) which leans against the inclined support back (31) at the middle part; the top end of the binding belt (22) is detachably fixed with a screw (32) positioned at the top of the inclined support back (31), and the bottom end of the binding belt (22) is detachably fixed in a binding hole (21) of the pin (2).

7. The photovoltaic panel bevel support structure of claim 6, wherein: the binding band (22) is a plastic packaging band for packaging a plurality of photovoltaic panels (4).