CN222276315U - A kind of inclined photovoltaic carport - Google Patents

Abstract

The application relates to a cable-stayed photovoltaic shed, which belongs to the technical field of photovoltaic sheds and comprises a plurality of upright posts, wherein the upright posts are detachably connected with a front supporting longitudinal beam and a rear supporting longitudinal beam, a plurality of supporting cross beams are detachably connected on the adjacent front supporting longitudinal beams, supporting cross beams are also detachably connected on the adjacent rear supporting longitudinal beams, the supporting cross beams support photovoltaic panels, the supporting cross beams are detachably connected with the photovoltaic panels, each photovoltaic panel is at least supported by two supporting cross beams, a first mounting seat is arranged on the front supporting longitudinal beam, a second mounting seat is arranged on the upright posts, the second mounting seat is positioned above the front supporting longitudinal beam, the first mounting seat and the second mounting seat are jointly hinged with diagonal tension rods, and the top surfaces of the front supporting longitudinal beam and the rear supporting longitudinal beam are obliquely arranged. The application has the effect of improving the adaptability of the photovoltaic car shed to the field.

Description

Inclined pulling type photovoltaic car shed

Technical Field

The application relates to the technical field of photovoltaic cabins, in particular to a diagonal type photovoltaic cabins.

Background

The photovoltaic bicycle shed is a facility combining solar power generation and bicycle shed functions, a complete bicycle shed is formed after the installation of a general photovoltaic bicycle shed is completed, when the floor area of the photovoltaic bicycle shed needs to be reduced when the bicycle shed is planned for reuse in the later period, the whole photovoltaic bicycle shed needs to be removed and replaced, if the scale of the photovoltaic bicycle shed needs to be expanded in the later period, a new complete photovoltaic bicycle shed needs to be installed again, adjacent photovoltaic bicycle sheds cannot be connected, and partial space is wasted.

Disclosure of utility model

The application provides a diagonal type photovoltaic car shed for improving the adaptability of the photovoltaic car shed to a field.

The application provides a diagonal photovoltaic shed, which adopts the following technical scheme:

The utility model provides a draw formula photovoltaic bicycle shed to one side, includes a plurality of stands, the stand can be dismantled and be connected with front support longeron and back support longeron, adjacent can dismantle on the front support longeron and be connected with a plurality of supporting beams, adjacent can also be dismantled on the back support longeron and be connected with the supporting beam, the supporting beam supports has the photovoltaic board, and the supporting beam with the photovoltaic board can dismantle and be connected, every the photovoltaic board is supported by two at least the supporting beam, be provided with first mount pad on the front support longeron, be provided with the second mount pad on the stand, the second mount pad is located the top of front support longeron, first mount pad with the second mount pad articulates jointly has the diagonal draw bar, the front support longeron with the top surface of back support longeron all inclines to set up.

Through adopting above-mentioned technical scheme, when installing the bicycle shed, install a plurality of stands earlier, then install front support longeron and back support longeron on the stand, install diagonal brace again, then install the support crossbeam on front support longeron and back support longeron, finally install the photovoltaic board on the support crossbeam, can accomplish the construction of photovoltaic bicycle shed fast, when needing to expand the photovoltaic bicycle shed, only need install new stand on the both sides of photovoltaic bicycle shed, install front support longeron on new stand, back support longeron and diagonal brace, install new support crossbeam between new front support longeron and old front support longeron, install new support crossbeam between new back support longeron and old back support longeron, install the photovoltaic board on new support crossbeam, can make the photovoltaic bicycle shed of small-size expand into the photovoltaic bicycle shed of jumbo size, and this kind of photovoltaic bicycle shed can infinitely extend the increase, if need reduce the size of photovoltaic bicycle shed, then can demolish stand, prop up respectively from both sides, support beam and photovoltaic board according to the needs, or demolish stand, support and photovoltaic board from one side, the whole photovoltaic roof, the whole field migration to the whole photovoltaic field or need not be completely transferred to the whole field.

Optionally, the end part of the front support longitudinal beam is connected with a first mounting plate, the top surface and the bottom surface of the front support longitudinal beam are both connected with a first support web, the first support web is fixed on the first mounting plate, and the first mounting plate is connected with the upright post through a bolt;

The end part of the rear supporting longitudinal beam is connected with a second mounting plate, the top surface and the bottom surface of the rear supporting longitudinal beam are both connected with a second supporting web plate, the second supporting web plate is fixed on the second mounting plate, and the second mounting plate is connected with a stand column bolt.

By adopting the technical scheme, the first mounting plate increases the mounting area of the front support longitudinal beam and the upright post, so that the front support longitudinal beam can be more stably mounted on the upright post, and the second mounting plate increases the mounting area of the rear support longitudinal beam and the upright post, so that the rear support longitudinal beam can be more stably mounted on the upright post;

The arrangement of the first support web and the second support web improves the bearing capacity of the front support longitudinal beam and the rear support longitudinal beam respectively, prevents the front support longitudinal beam and the rear support longitudinal beam from lateral movement and torsion, reduces the deformation and deflection of the front support longitudinal beam and the rear support longitudinal beam when being subjected to external load, and keeps the stability of the structure.

Optionally, at least two reinforcing cross plates are connected to the upright, the top surfaces of the front supporting longitudinal beam and the rear supporting longitudinal beam are at least on the same inclined plane with the top surface of one reinforcing cross plate, and at least one of the two end surfaces of the reinforcing cross plates is opposite to the bottom of the front supporting longitudinal beam and the bottom of the rear supporting longitudinal beam respectively.

Through adopting above-mentioned technical scheme, strengthen the diaphragm and increased the torsional capacity of stand to the force of front support longeron and back support longeron can pass through the transmission of strengthening the diaphragm, transmission load that can be better reduces the front support longeron and appear deformation.

Optionally, the bottom of stand is provided with the base, be provided with a plurality of reinforcing webs on the base.

Through adopting above-mentioned technical scheme, the pedestal has strengthened the area of contact of stand and ground, improves the stability of stand, strengthens the load that the web can disperse the stand and receive, evenly transmits the foundation with the load, reduces the local stress concentration of foundation, is favorable to the stability of foundation and long-term use, can provide more firm support for the stand, makes it fix on the foundation better, reduces the stand that causes because of factors such as external vibration or wind-force and rocks or warp.

Optionally, the front support longitudinal beam with all be provided with first connecting plate on the back support longitudinal beam, adjacent the front support longitudinal beam first connecting plate one-to-one, adjacent the back support longitudinal beam first connecting plate one-to-one, first connecting hole has been seted up on the first connecting plate, first waist shape hole has been seted up to the supporting beam, first connecting plate with the supporting beam passes through first connecting hole with first waist shape hole bolted connection.

Through adopting above-mentioned technical scheme, aim at first connecting hole with first kidney-shaped hole, can make supporting beam and first connecting plate bolted connection, the relative position of supporting beam and first connecting plate is adjusted to the design in first kidney-shaped hole convenience when the installation.

Optionally, the first kidney-shaped hole is provided with a plurality of holes.

Through adopting above-mentioned technical scheme, conveniently adjust the relative position of supporting beam and first connecting plate, after the supporting beam installation is accomplished, unnecessary first kidney-shaped hole can be regarded as the ventilation hole, is favorable to reducing the windage, improves the stability and the durability of structure.

Optionally, the support beam is provided with a second kidney-shaped hole, the photovoltaic panel is provided with a second connecting hole, and the support beam is in bolted connection with the photovoltaic panel through the second kidney-shaped hole and the second connecting hole.

Through adopting above-mentioned technical scheme, aim at second waist shape hole with the second connecting hole, can make photovoltaic board and supporting beam bolted connection, the design in second waist shape hole is convenient adjusts the positional relationship of supporting beam and photovoltaic board when the installation.

Optionally, the front support longitudinal beam and the back support longitudinal beam are all provided with the second connecting plate, adjacent the front support longitudinal beam the second connecting plate one-to-one, adjacent the back support longitudinal beam the second connecting plate one-to-one, two correspondence be provided with the additional crossbeam between the second connecting plate, the both ends of additional crossbeam all are provided with the butt joint board, the butt joint board rather than homonymy the second connecting plate bolted connection.

By adopting the technical scheme, the stability of the whole shed structure is improved by the additional cross beam, and the possibility of structural deformation and vibration is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. The photovoltaic bicycle shed can be infinitely extended and enlarged, and if the size of the photovoltaic bicycle shed needs to be reduced, the photovoltaic plate, the supporting beam, the diagonal draw bar, the front supporting longitudinal beam, the rear supporting longitudinal beam and the upright post can be respectively removed from two sides according to the requirements of a land, or the photovoltaic plate, the supporting beam, the diagonal draw bar, the front supporting longitudinal beam, the rear supporting longitudinal beam and the upright post are removed from one side, the whole photovoltaic bicycle shed does not need to be completely removed or wholly moved, and the adaptability of the photovoltaic bicycle shed to the land is improved;

2. The relative position of the supporting beam and the first connecting plate is conveniently adjusted through the first kidney-shaped holes, and after the supporting beam is installed, the redundant first kidney-shaped holes can be used as ventilation holes, so that wind resistance is reduced, and the stability and durability of the structure are improved.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is an enlarged schematic view of the portion a in fig. 1.

Fig. 3 is an enlarged schematic view of a portion B in fig. 1.

Fig. 4 is an enlarged schematic view of a portion C in fig. 3.

Fig. 5 is an enlarged schematic view of the portion D in fig. 3.

Fig. 6 is a schematic structural view of an embodiment of the present application for embodying a support beam.

Fig. 7 is an enlarged schematic view of the portion E in fig. 6.

The reference numerals comprise 1, upright posts, 11, a base, 12, a reinforcing web plate, 13, a reinforcing transverse plate, 14 and a second mounting seat, 2, a front support longitudinal beam, 21, a first mounting plate, 22, a first support web plate, 23, a first mounting seat, 3, a rear support longitudinal beam, 31, a second mounting plate, 32, a second support web plate, 4, a first connecting plate, 41, a first connecting hole, 5, a support cross beam, 51, a first waist-shaped hole, 52, a second waist-shaped hole, 6, a second connecting plate, 7, an additional cross beam, 71, a butt plate, 8, a photovoltaic plate, 81, a second connecting hole and 9, a diagonal draw bar.

Detailed Description

The application is described in further detail below with reference to fig. 1-7.

The embodiment of the application discloses a diagonal-pulling type photovoltaic car shed.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the cable-stayed photovoltaic shed comprises a plurality of upright posts 1, the upright posts 1 are i-shaped steel, the upright posts 1 are arranged along the same straight line direction, a base 11 is welded at the bottom of the upright posts 1, the base 11 is a square plate, eight reinforcing webs 12 are welded at the top surface of the base 11, every four reinforcing webs 12 are in a group, the upright posts 1 are positioned between the two groups of reinforcing webs 12, the upright posts 1 are welded with the reinforcing webs 12, two reinforcing transverse plates 13 are welded at the left side and the right side of the upright posts 1, a first mounting plate 21 is connected with a front side bolt of the upright posts 1, a front supporting longitudinal beam 2 is welded on the first mounting plate 21, a first supporting web 22 is welded on the top surface and the bottom surface of the front supporting longitudinal beam 2 are welded on the first mounting plate 21, a second mounting plate 31 is connected with the rear side bolt of the upright posts 1, a rear supporting longitudinal beam 3 is welded on the second supporting web 32 is welded on the top surface and the bottom surface of the rear supporting longitudinal beam 3, and the second supporting web 32 is welded on the second mounting plate 31.

The top surfaces of the front support longitudinal beam 2 and the rear support longitudinal beam 3 are obliquely arranged, the two reinforcing transverse plates 13 on each side of the upright post 1 are divided into an upper reinforcing transverse plate 13 and a lower reinforcing transverse plate 13, wherein the two upper reinforcing transverse plates 13 are positioned on the same inclined surface with the top surfaces of the front support longitudinal beam 2 and the rear support longitudinal beam 3, and the two end surfaces of the two lower reinforcing transverse plates 13 are respectively opposite to the bottom of the front support longitudinal beam 2 and the bottom of the rear support longitudinal beam 3.

As shown in fig. 3 and 5, four first connecting plates 4 are equidistantly arranged on the top surface of the front supporting longitudinal beam 2 along the length direction of the front supporting longitudinal beam, two first connecting plates 4 are equidistantly arranged on the top surface of the rear supporting longitudinal beam 3 along the length direction of the rear supporting longitudinal beam, the first connecting plates 4 of the adjacent front supporting longitudinal beam 2 are in one-to-one correspondence, four first connecting holes 41 are formed in the first connecting plates 4, the four first connecting plates 4 are arranged in two rows and two columns, four supporting cross beams 5 are erected on the adjacent front supporting longitudinal beam 2, two supporting cross beams 5 are erected on the adjacent rear supporting longitudinal beam 3, each supporting cross beam 5 is spliced with the two corresponding first connecting plates 4, two rows of first kidney-shaped holes 51 are formed in two ends of the supporting cross beams 5 along the length direction of the supporting cross beam, one column of first kidney-shaped holes 51 are in bolted connection with the aligned column of the first connecting holes 41, and the supporting cross beams 5 and the first connecting plates 4 are in bolted connection through the first kidney-shaped holes 51 and the first connecting holes 41.

Four second connecting plates 6 are arranged on two sides of the front support longitudinal beam 2 at equal intervals along the length direction of the front support longitudinal beam, two second connecting plates 6 are arranged on two sides of the rear support longitudinal beam 3 at equal intervals along the length direction of the rear support longitudinal beam, the second connecting plates 6 are staggered with the first connecting plates 4, the second connecting plates 6 of the adjacent front support longitudinal beams 2 are in one-to-one correspondence, the second connecting plates 6 of the adjacent rear support longitudinal beams 3 are in one-to-one correspondence, an additional cross beam 7 is arranged between the two adjacent corresponding second connecting plates 6, abutting plates 71 are welded at two ends of the additional cross beam 7, and the abutting plates 71 are connected with the second connecting plates 6 on the same side through bolts.

As shown in fig. 5, 6 and 7, a plurality of second kidney-shaped holes 52 are formed in the top surface of the supporting beam 5 along the length direction, a plurality of photovoltaic panels 8 are supported on each two adjacent supporting beams 5, second connecting holes 81 corresponding to the second kidney-shaped holes 52 are formed in the photovoltaic panels 8, and the supporting beam 5 and the photovoltaic panels 8 are connected through the second kidney-shaped holes 52 and the second connecting holes 81 through bolts.

As shown in fig. 3, a first mounting seat 23 is welded on the top surface of the front support longitudinal beam 2, a second mounting seat 14 is welded on the front side surface of the upright post 1, the second mounting seat 14 is positioned above the first mounting seat 23, and the first mounting seat 23 and the second mounting seat 14 are hinged with a diagonal draw bar 9.

When installing the bicycle shed, a plurality of upright posts 1 are installed firstly, then front support longitudinal beams 2 and rear support longitudinal beams 3 are installed on the upright posts 1, diagonal rods 9 are installed again, then support cross beams 5 and additional cross beams 7 are installed on the front support longitudinal beams 2 and the rear support longitudinal beams 3, finally photovoltaic panels 8 are installed on the support cross beams 5, construction of the bicycle shed can be completed quickly, when the bicycle shed needs to be expanded, new upright posts 1 are installed on two sides of the bicycle shed, front support longitudinal beams 2, rear support longitudinal beams 3 and diagonal rods 9 are installed on the new upright posts 1, new support cross beams 5 and additional cross beams 7 are installed between the new front support longitudinal beams 2 and the old front support longitudinal beams 2, new support cross beams 5 and additional cross beams 7 are installed between the new rear support longitudinal beams 3 and the old rear support longitudinal beams 3, and photovoltaic panels 8 are installed on the new support cross beams 5, and the bicycle shed can be expanded into a large-size photovoltaic bicycle shed, and can be expanded infinitely, if the size of the bicycle shed needs to be reduced, the whole bicycle shed can be removed from the upright posts 1, the whole photovoltaic panels can be removed from the two sides of the bicycle shed or the whole bicycle shed can be removed from the whole bicycle shed by the support cross beams 8 or the whole bicycle shed can be removed from the side of the whole bicycle shed according to the need to the photovoltaic panels 1, and the whole bicycle shed can be removed from the whole frame and the whole frame can be removed.

The above embodiments are not intended to limit the scope of the application, so that the equivalent changes of the structure, shape and principle of the application are covered by the scope of the application.

Claims (8)

1. The cable-stayed photovoltaic bicycle shed is characterized by comprising a plurality of upright posts (1), wherein each upright post (1) is detachably connected with a front supporting longitudinal beam (2) and a rear supporting longitudinal beam (3), a plurality of supporting cross beams (5) are detachably connected to the adjacent front supporting longitudinal beams (2), the supporting cross beams (5) are detachably connected to the adjacent rear supporting longitudinal beams (3) as well, the supporting cross beams (5) are supported with photovoltaic plates (8), the supporting cross beams (5) are detachably connected with the photovoltaic plates (8), each photovoltaic plate (8) is supported by at least two supporting cross beams (5), a first mounting seat (23) is arranged on each front supporting longitudinal beam (2), a second mounting seat (14) is arranged on each upright post (1), the second mounting seat (14) is positioned above each front supporting longitudinal beam (2), the first mounting seat (23) and the second mounting seat (14) are jointly hinged with an inclined longitudinal beam (9), and the front supporting longitudinal beams (2) and the rear supporting longitudinal beams (3) are obliquely arranged.

2. The cable-stayed photovoltaic bicycle shed according to claim 1, characterized in that the end part of the front support longitudinal beam (2) is connected with a first mounting plate (21), the top surface and the bottom surface of the front support longitudinal beam (2) are connected with a first support web (22), the first support web (22) is fixed on the first mounting plate (21), and the first mounting plate (21) is connected with an upright post (1) through bolts;

The rear support longitudinal beam (3) end connection has second mounting panel (31), the top surface and the bottom surface of rear support longitudinal beam (3) all are connected with second supporting web (32), second supporting web (32) are fixed on second mounting panel (31), second mounting panel (31) and stand (1) bolted connection.

3. The diagonal-pulling type photovoltaic bicycle shed according to any one of claims 1 or 2, characterized in that at least two reinforcing transverse plates (13) are connected to the upright post (1), the top surfaces of the front supporting longitudinal beam (2) and the rear supporting longitudinal beam (3) are at least on the same inclined surface with the top surface of one reinforcing transverse plate (13), and two end surfaces of at least one reinforcing transverse plate (13) are respectively opposite to the bottoms of the front supporting longitudinal beam (2) and the rear supporting longitudinal beam (3).

4. The cable-stayed photovoltaic bicycle shed according to claim 1, characterized in that a base (11) is arranged at the bottom of the upright post (1), and a plurality of reinforcing webs (12) are arranged on the base (11).

5. The cable-stayed photovoltaic bicycle shed according to claim 1, wherein first connecting plates (4) are arranged on the front supporting longitudinal beams (2) and the rear supporting longitudinal beams (3), the first connecting plates (4) of the adjacent front supporting longitudinal beams (2) are in one-to-one correspondence, first connecting holes (41) are formed in the first connecting plates (4), first waist-shaped holes (51) are formed in the supporting cross beams (5), and the first connecting plates (4) and the supporting cross beams (5) are connected through the first connecting holes (41) and the first waist-shaped holes (51) in a bolt mode.

6. The cable stayed photovoltaic shed as claimed in claim 5, characterized in that the first kidney-shaped holes (51) are provided in several.

7. The diagonal-pulling type photovoltaic bicycle shed according to claim 1, wherein the supporting beam (5) is provided with a second waist-shaped hole (52), the photovoltaic panel (8) is provided with a second connecting hole (81), and the supporting beam (5) and the photovoltaic panel (8) are connected through the second waist-shaped hole (52) and the second connecting hole (81) through bolts.

8. The cable-stayed photovoltaic bicycle shed according to claim 1, wherein the front support longitudinal beams (2) and the rear support longitudinal beams (3) are respectively provided with a second connecting plate (6), the second connecting plates (6) of the adjacent front support longitudinal beams (2) are in one-to-one correspondence, the second connecting plates (6) of the adjacent rear support longitudinal beams (3) are in one-to-one correspondence, an additional cross beam (7) is arranged between the two corresponding second connecting plates (6), two ends of the additional cross beam (7) are respectively provided with an abutting plate (71), and the abutting plates (71) are in bolt connection with the second connecting plates (6) on the same side.