CN217000510U - Steel construction canopy tile mounting structure that can be used to installation photovoltaic - Google Patents

Abstract

The utility model discloses a steel structure shed roof tile mounting structure for mounting photovoltaic, which comprises a plurality of shed roofs, a plurality of fasteners and a plurality of photovoltaic components, wherein a plurality of drainage grooves and a plurality of convex parts are formed on the shed roof, the drainage grooves are distributed at intervals along the direction vertical to the shed roof for drainage, the drainage grooves extend along the direction of drainage of the shed roof, and the convex parts are used for jointly supporting the photovoltaic components: this mounting structure utilizes the first waterproof portion and the second waterproof portion that bend and take shape through setting up polylith shed roof, a plurality of fastener, realizes every two liang of adjacent shed roof overlap joints of controlling, wherein, because first waterproof portion and second waterproof portion arch up respectively, can prevent that the rainwater from flowing from the gap between every two liang of adjacent shed roofs of controlling, has waterproof function, need not to beat and glue, viscose.

Description

Steel construction canopy tile mounting structure that can be used to installation photovoltaic

Technical Field

The utility model relates to the technical field of photovoltaic supports, in particular to a steel structure shed roof tile mounting structure for mounting photovoltaic.

Background

A photovoltaic panel assembly is a power generation device that generates direct current upon exposure to sunlight, and is composed of thin solid photovoltaic cells made almost entirely of semiconductor material (e.g., silicon); because the building of steel construction generally has great top layer area, especially to the factory building in industrial area, the building height in its industrial area of place is generally lower, shelters from less, is ideal photovoltaic board application scenario, and current photovoltaic shed roof, its self quality is higher, and is great to factory building roofing load, often adopts to glue, viscose mode connection shed roof, makes waterproof performance relatively poor.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model aims to provide the steel structure shed roof tile installation structure which has a waterproof function, is quick and convenient to install and can be used for installing photovoltaic.

In order to achieve the purpose, the scheme provided by the utility model is as follows: a steel structure shed roof tile mounting structure for mounting photovoltaic comprises a plurality of shed roofs, a plurality of fasteners and a plurality of photovoltaic components, wherein a plurality of drainage grooves and a plurality of protrusions are formed in the shed roof, the drainage grooves are distributed at intervals along the direction perpendicular to the drainage direction of the shed roof, the drainage grooves extend along the drainage direction of the shed roof, the protrusions are used for supporting the photovoltaic components together, the protrusions extend along the length direction of the shed roof, connecting grooves are formed in the protrusions, the connecting grooves extend along the length direction of the protrusions, the fasteners are buckled with the connecting grooves downwards and buckled with the photovoltaic components upwards;

the left side and the right side of the shed roof are respectively bent to form a first waterproof part and a second waterproof part, the first waterproof part and the second waterproof part are respectively arched upwards, and when every two adjacent shed roofs are lapped, the first waterproof part of one shed roof covers the second waterproof part of the other shed roof.

The utility model has the beneficial effects that: the installation is fast and convenient, the installation structure realizes the overlapping of every two adjacent shed tops on the left and right sides by arranging a plurality of shed tops and a plurality of fasteners and utilizing the first waterproof part and the second waterproof part which are formed by bending, wherein the first waterproof part and the second waterproof part are respectively arched upwards, so that rainwater can be prevented from flowing out from a gap between every two adjacent shed tops on the left and right sides, the waterproof function is realized, and glue application are not needed; meanwhile, the connecting groove is buckled downwards through the fastener, and the photovoltaic module is buckled upwards, so that the photovoltaic module is quickly installed, and the whole installation process is quick and convenient; in addition, the mounting structure is smaller for roof load, does not have any load of a photovoltaic support, is suitable for wider types of roofs, and does not need to additionally add operation and maintenance channels.

Further, it is a plurality of the bellying is arranged along shed roof width direction interval, and is a plurality of bellying and water drainage tank are crisscross to be arranged.

Furthermore, the cross section of the connecting groove is of an inverted T-shaped structure, a plurality of T-shaped bolts are arranged in the connecting groove, and the T-shaped bolts are upwards connected with the fasteners. After the structure is adopted, the detachable connecting fastener is realized.

Further, a nut is arranged on the fastener and is used for being in threaded connection with the T-shaped bolt. After the structure is adopted, the connecting fastener is realized.

Furthermore, the fastener is bent to form a bent part, and the bent part is connected with the photovoltaic module in an upward buckling mode. By adopting the structure, the photovoltaic module is connected in a buckling mode.

Further, the fastener is formed with a sawtooth part, and when the fastener is connected with the photovoltaic module in a buckling mode, the sawtooth part is in frictional contact with the photovoltaic module. After the structure is adopted, the sawtoothed part is in frictional contact with the photovoltaic component, so that the fastener is connected with the photovoltaic component more stably.

Further, the first waterproof part and the second waterproof part are respectively of a barb type structure.

Further, when two adjacent shed roofs are overlapped, the shed roof at the front side is overlapped with the shed roof at the rear side downwards, wherein the position of the shed roof at the front side is higher than that of the shed roof at the rear side. After the structure is adopted, the shed roof at the front side is downwards lapped with the shed roof at the rear side, so that rainwater can be prevented from flowing out from a gap between every two adjacent shed roofs at the front and the rear.

Drawings

Fig. 1 is a perspective view of the overall structure of the present invention.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a partially enlarged view of fig. 1 at B.

Fig. 4 is an elevational view of the overall construction of the present invention.

Fig. 5 is a partially enlarged view of C in fig. 4.

Fig. 6 is a partially enlarged view of fig. 4 at D.

Fig. 7 is a side view of the overall structure of the present invention.

Fig. 8 is a top view of the overall structure of the present invention.

Fig. 9 is a perspective view of the fastener of the present invention.

Wherein, 1 is the shed roof, 11 is the water drainage tank, 12 is the bellying, 121 is the connecting groove, 122 is T type bolt, 131 is first waterproof portion, 132 is second waterproof portion, 2 is the fastener, 21 is the nut, 22 is the portion of bending, 23 is sawtooth portion, 3 is photovoltaic module.

Detailed Description

The utility model will be further illustrated with reference to specific examples:

referring to fig. 1 to 9, a steel structure shed roof tile installation structure for installing photovoltaic comprises a plurality of shed roofs 1, a plurality of fasteners 2 and a plurality of photovoltaic modules 3, wherein the shed roof 1 is formed with a plurality of drainage grooves 11 and a plurality of protrusions 12, the drainage grooves 11 are arranged at intervals along the direction perpendicular to the drainage direction of the shed roof 1, the drainage grooves 11 extend along the drainage direction of the shed roof 1, the protrusions 12 are used for jointly supporting the photovoltaic modules 3, the protrusions 12 extend along the length direction of the shed roof 1, the protrusions 12 are provided with connecting grooves 121, the connecting grooves 121 extend along the length direction of the protrusions 12, the fasteners 2 are buckled with the connecting grooves 121 downwards and the photovoltaic modules 3 are buckled upwards; wherein, the shed roof 1 and the fastener 2 are made of zinc-aluminum-magnesium materials, and have strong antirust performance.

The left side and the right side of the shed roof 1 are respectively bent to form a first waterproof part 131 and a second waterproof part 132, the first waterproof part 131 and the second waterproof part 132 are respectively arched upwards, and when every two adjacent shed roofs 1 on the left side and the right side are lapped, the first waterproof part 131 of one shed roof 1 covers the second waterproof part 132 of the other shed roof 1; the first waterproof portion 131 and the second waterproof portion 132 are respectively of a barb-type structure.

In this embodiment, the plurality of protrusions 12 are arranged at intervals in the width direction of the ceiling 1, and the plurality of protrusions 12 and the drainage channels 11 are arranged in a staggered manner.

In this embodiment, the cross section of the connecting groove 121 is an inverted T-shaped structure, a plurality of T-shaped bolts 122 are disposed in the connecting groove 121, and the T-shaped bolts 122 are upwardly connected to the fastening component 2.

In the present embodiment, the fastening member 2 is provided with a nut 21, and the nut 21 is used for being screwed with the T-bolt 122.

In this embodiment, the fastener 2 is bent to form a bent portion 22, and the bent portion 22 is upward connected to the photovoltaic module 3 by means of a snap fit.

In the present embodiment, the clip 2 is formed with a saw-toothed portion 23, and when the clip 2 is snap-connected to the photovoltaic module 3, the saw-toothed portion 23 is in frictional contact with the photovoltaic module 3.

In the present embodiment, when two adjacent front and rear roofs 1 are overlapped, the front roof 1 is overlapped downward with the rear roof 1, wherein the front roof 1 is positioned higher than the rear roof 1.

In this embodiment, the specific fast assembly process is: firstly, overlapping a plurality of shed tops 1 left and right, wherein every two shed tops 1 adjacent to each other left and right are overlapped, namely a first waterproof part 131 of one shed top 1 covers a second waterproof part 132 of the other shed top 1, and because the first waterproof part 131 and the second waterproof part 132 are respectively arched upwards, rainwater cannot flow out from a gap between every two shed tops 1 adjacent to each other left and right, then obliquely placing a plurality of shed tops 1 connected left and right on a bracket at the top of a factory building, overlapping a plurality of shed tops 1 adjacent to each other front and back, namely covering the tail part of the shed top 1 with a higher position downwards on the head part of the shed top 1 with a lower position, and enabling rainwater cannot flow out from the gap between every two shed tops 1 adjacent to each other front and back;

polylith photovoltaic module 3 places respectively on shed roof 1 this moment, and by the bearing of a plurality of bellying 12, then set up many T type bolts 122 on spread groove 121, and make T type bolt 122's head set up in spread groove 121, again with the photovoltaic module 3 of upwards buckle connection of the portion 22 of bending of fastener 2, at last make T type bolt 122 upwards connect fastener 2's nut 21, when the realization is fixed in fastener 2 locking on shed roof 1, be fixed in on shed roof 1 with photovoltaic module 3 buckle, whole assembly process is convenient fast.

The above-described embodiments are merely preferred embodiments of the present invention, which is not intended to limit the present invention in any way. Those skilled in the art can make many changes and modifications to the disclosed embodiments, or modify the equivalent embodiments using the teachings disclosed above, without departing from the scope of the present invention. Therefore, equivalent variations made according to the idea of the present invention should be covered within the protection scope of the present invention without departing from the contents of the technical solution of the present invention.

Claims (8)

1. The utility model provides a steel construction canopy tile mounting structure that can be used to installation photovoltaic, includes polylith canopy top (1), a plurality of fastener (2), polylith photovoltaic module (3), its characterized in that: the greenhouse top (1) is provided with a plurality of drainage grooves (11) and a plurality of protrusions (12), the drainage grooves (11) are arranged at intervals along the direction perpendicular to the drainage direction of the greenhouse top (1), the drainage grooves (11) extend along the drainage direction of the greenhouse top (1), the protrusions (12) are used for supporting a plurality of photovoltaic modules (3) together, the protrusions (12) extend along the length direction of the greenhouse top (1), the protrusions (12) are provided with connecting grooves (121), the connecting grooves (121) extend along the length direction of the protrusions (12), the fasteners (2) are buckled with the connecting grooves (121) downwards, and the photovoltaic modules (3) are buckled upwards;

the left side and the right side of the shed roof (1) are respectively bent to form a first waterproof part (131) and a second waterproof part (132), the first waterproof part (131) and the second waterproof part (132) are respectively arched upwards, and when every two adjacent shed roofs (1) are lapped, the first waterproof part (131) of one shed roof (1) covers the second waterproof part (132) of the other shed roof (1).

2. The steel structure shed roof tile mounting structure for mounting photovoltaic of claim 1, which is characterized in that: a plurality of bellying (12) are arranged along shed roof (1) width direction interval, and are a plurality of bellying (12) and water drainage tank (11) are crisscross to be arranged.

3. The steel structure shed roof tile mounting structure for mounting photovoltaic of claim 2, wherein: the cross section of the connecting groove (121) is of an inverted T-shaped structure, a plurality of T-shaped bolts (122) are arranged in the connecting groove (121), and the T-shaped bolts (122) are upwards connected with the fasteners (2).

4. The steel structure shed roof tile installation structure for installing photovoltaic of claim 3, which is characterized in that: be provided with nut (21) on fastener (2), nut (21) are used for with T type bolt (122) threaded connection.

5. The steel structure shed roof tile installation structure for installing photovoltaic of claim 4, which is characterized in that: the fastener (2) is bent to form a bent part (22), and the bent part (22) is connected with the photovoltaic module (3) in an upward buckling mode.

6. The steel structure shed roof tile installation structure for installing photovoltaic of claim 5, wherein: the fastener (2) is provided with a sawtooth part (23) in a forming mode, and when the fastener (2) is connected with the photovoltaic module (3) in a buckling mode, the sawtooth part (23) is in friction contact with the photovoltaic module (3).

7. The steel structure shed roof tile mounting structure for mounting photovoltaic of claim 6, wherein: the first waterproof portion (131) and the second waterproof portion (132) are respectively of a barb type structure.

8. The steel structure shed roof tile mounting structure for mounting photovoltaic of claim 7, wherein: when the two shed roofs (1) which are adjacent in front and back are lapped, the shed roof (1) on the front side is lapped downwards on the shed roof (1) on the back side, wherein the position of the shed roof (1) on the front side is higher than that of the shed roof (1) on the back side.

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