CN210177836U - Photovoltaic building integrated bracket system - Google Patents

Abstract

The utility model discloses a photovoltaic building integrated bracket system relates to the photovoltaic power generation technical field, including a plurality of purlins of equidistance installation on the roof beam, the purlin is perpendicular to the roof beam, equidistant a plurality of W type guiding gutters of installing on the purlin, W type guiding gutter all is perpendicular to the purlin, two adjacent W type guiding gutters between be provided with a set of photovoltaic module, W type guiding gutter includes the boss in middle part and sets up the basin in boss both sides, the both sides of boss all form the lapped platform of confession photovoltaic module, the relative both sides limit of photovoltaic module overlap joint respectively on two adjacent W type guiding gutters two adjacent on the platform, and the side of photovoltaic module is gapped with the boss of adjacent W type guiding gutter; the utility model discloses it is comparatively convenient not only to install, and installation cost is lower, has realized the rapid discharge of rainwater moreover, avoids the rainwater to pile up on the photovoltaic module surface, has guaranteed photovoltaic module's normal work.

Description

Photovoltaic building integrated bracket system

Technical Field

The utility model relates to a photovoltaic power generation technical field especially relates to a photovoltaic building integration mounting system.

Background

The solar photovoltaic power generation system is a photovoltaic power generation system which is connected with a power grid and transmits power to the power grid by utilizing solar energy and adopting a power generation system consisting of electronic elements made of special materials such as a crystalline silicon plate, an inverter and the like. The solar photovoltaic power generation system mainly comprises a solar cell array, a storage battery pack, a charge-discharge controller, an inverter, an alternating current power distribution cabinet and a sun tracking control system. The worldwide energy crisis promotes the rapid development of new energy industries, and solar energy is the most important basic energy source of various renewable energy sources, so that in recent years, the application range of solar photovoltaic power generation systems is more and more extensive, and the solar photovoltaic power generation systems are applied to a plurality of industries.

The photovoltaic building integration technology is a technology for integrating a solar power generation product into a building, and simply means that a solar photovoltaic power generation matrix is installed on the outer surface of an envelope structure of the building to provide power. The existing photovoltaic building integrated support is complex in installation, high in installation cost and poor in waterproof performance, rainwater cannot be rapidly discharged by a photovoltaic power generation square matrix, and the service life of a photovoltaic module is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that, overcome prior art's shortcoming, provide a photovoltaic building integration mounting system.

In order to solve the technical problem, the technical scheme of the utility model as follows:

a photovoltaic building integrated bracket system comprises a plurality of purlins which are equidistantly arranged on a roof girder, the purlines are perpendicular to the roof beam, a plurality of W-shaped water chutes are equidistantly arranged on the purlines, the W-shaped water chutes are perpendicular to the purlines, a group of photovoltaic assemblies are arranged between every two adjacent W-shaped water chutes, each group of photovoltaic assemblies comprises a plurality of photovoltaic assemblies uniformly arranged along the length direction of the W-shaped water chutes, the W-shaped water guide groove comprises a boss in the middle and water grooves arranged on two sides of the boss, platforms for lap joint of the photovoltaic components are formed on two sides of the boss, the photovoltaic assembly is characterized in that the platforms are connected with the side wall of the water tank, two opposite side edges of the photovoltaic assembly are respectively lapped on two adjacent platforms on two adjacent W-shaped water chutes, and a gap is reserved between the side edge of the photovoltaic assembly and the lug bosses of the adjacent W-shaped water chutes.

Further, be provided with the subassembly mounting that is used for fixed photovoltaic module on the W type guiding gutter, the subassembly mounting includes middling pressure mounting and limit pressure fixing piece, along purlin length direction, be connected with the W type guiding gutter through middling pressure mounting between two adjacent photovoltaic module, the photovoltaic module of limit portion passes through the limit pressure fixing piece and is connected with the W type guiding gutter, the middling pressure mounting includes protruding type body and the blank pressing that is located protruding type body both sides, the limit pressure fixing piece includes protruding type body, protruding type body is provided with the blank pressing towards photovoltaic module one side, the opposite side of protruding type body is provided with the card limit with the boss joint, the blank pressing voltage-sharing connects on photovoltaic module, set up the first bolt hole that runs through protruding type body on the protruding type body, the second bolt hole has been seted up to correspondence on the W type guiding gutter, middling pressure mounting and limit pressure fixing piece all are connected with the W type guiding gutter through.

The photovoltaic building integrated bracket system is characterized in that one side of the blank pressing facing the photovoltaic assembly is provided with silicone structural adhesive.

The photovoltaic building integrated bracket system is characterized in that a waterproof adhesive tape is arranged between two adjacent photovoltaic assemblies along the length direction of the W-shaped water chute.

Preceding a photovoltaic building integration mounting system, one side that the boss was kept away from to the basin is provided with the mounting panel, wears to be equipped with the screw on the mounting panel, corresponds on the purlin and has seted up the screw, and the lower extreme of screw extends in the screw.

The utility model has the advantages that:

(1) the utility model discloses a W type guiding gutter is as the installation frame of photovoltaic module, and it is comparatively convenient to install, and the installation cost is lower, and forms the clearance between photovoltaic module and the W type guiding gutter, and the water on photovoltaic module surface can flow along photovoltaic module, gets into the basin of W type guiding gutter through the clearance between photovoltaic module and the W type guiding gutter, discharges by the basin again, realizes discharging rapidly of rainwater, avoids the rainwater to pile up on photovoltaic module surface, has guaranteed photovoltaic module's normal work, has prolonged photovoltaic module's life;

(2) the utility model discloses equidistantly install many purlins perpendicular to the roof beam on the roof beam, equidistantly install many W type guiding gutters perpendicular to the purlin on the purlin again, make whole photovoltaic supporting structure more stable, the structure wind resistance ability is stronger, and reduced the bearing of roofing;

(3) the utility model arranges the component fixing piece on the W-shaped water chute, and the photovoltaic component is pressed and fixed through the component fixing piece, thereby ensuring the stability of connection between the photovoltaic component and the W-shaped water chute and further ensuring the structural stability of the integrated bracket;

(4) the utility model discloses install waterproof adhesive tape on adjacent photovoltaic module longitudinal side, avoid rainwater to flow into the building from the clearance between the longitudinal side when flowing along photovoltaic module, guaranteed the normal discharge of rainwater;

(5) the utility model discloses still be provided with the silicone structure at the blank pressing towards one side of photovoltaic module and glue, further improved the fixed effect of subassembly mounting to photovoltaic module.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is a sectional view of a W-shaped chute;

FIG. 4 is a schematic structural view of a medium pressure fixture;

FIG. 5 is a schematic structural view of an edge pressure fixing member;

fig. 6 is a partial perspective view of the present invention;

wherein: 1. a roof girder; 2. a purlin; 3. a W-shaped water chute; 4. a photovoltaic module; 5. a boss; 6. a water tank; 7. a platform; 8. a medium pressure fixture; 9. pressing and fixing the fixed piece; 10. a convex body; 11. pressing edges; 12. edge clamping; 13. a bolt; 14. a waterproof adhesive tape; 15. mounting a plate; 16. and (4) screws.

Detailed Description

In order that the present invention may be more readily and clearly understood, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

The embodiment provides a photovoltaic building integrated support system, which is shown in fig. 1 and comprises a plurality of purlins 2 which are equidistantly mounted on a roof girder 1, wherein the purlins 2 are perpendicular to the roof girder 1. A plurality of W-shaped water chutes 3 are equidistantly arranged on the purline 2, and the W-shaped water chutes 3 are perpendicular to the purline 2.

Referring to fig. 3, W type guiding gutter 3 includes boss 5, the lower extreme of boss 5 both sides all is provided with the hem, be formed with and supply the lapped platform 7 of photovoltaic module 4, the lower extreme of every platform 7 all is provided with basin 6, one side of keeping away from boss 5 at basin 6 all is provided with mounting panel 15, wear to be equipped with screw 16 on mounting panel 15, the position corresponding to screw 16 on purlin 2 all is provided with the screw, the cooperation fixed mounting of W type guiding gutter 3 through screw 16 and screw is on purlin 2.

A group of photovoltaic modules 4 are arranged between two adjacent W-shaped water chutes 3, and each group of photovoltaic modules 4 comprises a plurality of photovoltaic modules 4 which are uniformly arranged along the length direction of the W-shaped water chutes 3. Waterproof rubber strips 14 are arranged between the transverse sides of two vertically adjacent photovoltaic modules 4.

A plurality of module fixing pieces are mounted on the boss 5 of each W-shaped water guide groove 3 and are uniformly arranged along the length direction of the W-shaped water guide groove 3. The assembly fixing piece comprises a medium-pressure fixing piece 8 and a side-pressure fixing piece 9, the longitudinal side edges of two transversely adjacent photovoltaic assemblies 4 are connected with the W-shaped water guide groove 3 through the medium-pressure fixing piece 8, and the longitudinal side edges of the photovoltaic assemblies 4 at the transverse edges are connected with the W-shaped water guide groove 3 through the side-pressure fixing piece 9. A gap exists between the side edge of the photovoltaic module 4 lapped on the platform 7 and the boss 5 of the W-shaped water chute 3.

Referring to fig. 4, the medium-pressure fixing member 8 includes a convex body 10 and a blank holder 11 located on both sides of the convex body 10, a first bolt 13 hole is penetrated through the middle of the convex body 10, a second bolt 13 hole is correspondingly arranged on the W-shaped water guiding groove 3, and the medium-pressure fixing member 8 is fixedly connected with the W-shaped water guiding groove 3 through the cooperation of the bolt 13 with the first bolt 13 hole and the second bolt 13 hole. The lower end faces of the two side pressing edges 11 of the convex body 10 are provided with silicone structural adhesive.

Referring to fig. 5, the edge pressure fixing member 9 includes a convex body 10, a first bolt 13 hole is formed in the middle of the convex body 10, a second bolt 13 hole is correspondingly formed in the W-shaped water guiding groove 3, and the middle pressure fixing member 8 is fixedly connected to the W-shaped water guiding groove 3 through the cooperation of the bolt 13, the first bolt 13 hole and the second bolt 13 hole. The side pressing fixing piece 9 is characterized in that a side pressing 11 is arranged on one side of a convex body 10, a silicone structural adhesive is arranged on the lower end face of the side pressing 11, a clamping edge 12 is arranged on the other side of the convex body 10, the side pressing 11 is pressed on the upper end face of the photovoltaic assembly 4 when the photovoltaic assembly is installed, and the clamping edge 12 is clamped on one side, away from the photovoltaic assembly 4, of the boss 5.

In addition, the pressing edges 11 of the middle-pressure fixing piece 8 and the side-pressure fixing piece 9 are both located at the joint of two adjacent photovoltaic modules 4, referring to fig. 6, on the premise that the pressing stability of the pressing edges 11 to the photovoltaic modules 4 is ensured, the number of the module fixing pieces can be reduced, and therefore the installation cost is reduced.

In addition to the above embodiments, the present invention may have other embodiments; all the technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the protection scope claimed by the present invention.

Claims (5)

1. The utility model provides a building integrated photovoltaic mounting system which characterized in that: the roof beam structure comprises a plurality of purlines (2) which are equidistantly arranged on a roof beam (1), wherein the purlines (2) are perpendicular to the roof beam (1), a plurality of W-shaped water chutes (3) are equidistantly arranged on the purlines (2), the W-shaped water chutes (3) are perpendicular to the purlines (2), a group of photovoltaic assemblies (4) are arranged between every two adjacent W-shaped water chutes (3), each group of photovoltaic assemblies (4) comprises a plurality of photovoltaic assemblies (4) which are uniformly arranged along the length direction of the W-shaped water chutes (3),

the W-shaped water guide groove (3) comprises a boss (5) in the middle and water grooves (6) arranged on two sides of the boss (5), platforms (7) for the photovoltaic components (4) to be lapped are formed on two sides of the boss (5), the platforms (7) are connected with the side wall of the water grooves (6),

two opposite side edges of the photovoltaic module (4) are respectively lapped on two adjacent platforms (7) on two adjacent W-shaped water chutes (3), and a gap is reserved between the side edge of the photovoltaic module (4) and the boss (5) of the adjacent W-shaped water chute (3).

2. The building-integrated photovoltaic bracket system according to claim 1, wherein: the W-shaped water guide groove (3) is provided with an assembly fixing piece for fixing the photovoltaic assemblies (4), the assembly fixing piece comprises a middle-pressure fixing piece (8) and an edge-pressure fixing piece (9), two adjacent photovoltaic assemblies (4) are connected with the W-shaped water guide groove (3) through the middle-pressure fixing piece (8) along the length direction of the purline (2), the photovoltaic assemblies (4) on the edge part are connected with the W-shaped water guide groove (3) through the edge-pressure fixing piece (9),

the photovoltaic module medium-voltage fixing piece is characterized in that the medium-voltage fixing piece (8) comprises a convex body (10) and edge pressing pieces (11) located on two sides of the convex body (10), the edge pressing fixing piece (9) comprises the convex body (10), the edge pressing pieces (11) are arranged on one side, facing the photovoltaic module (4), of the convex body (10), clamping edges (12) clamped with bosses (5) are arranged on the other side of the convex body (10), the edge pressing pieces (11) are in pressure-equalizing connection with the photovoltaic module (4), first bolt (13) holes penetrating through the convex body (10) are formed in the convex body (10), second bolt (13) holes are correspondingly formed in the W-shaped water guide groove (3), and the medium-voltage fixing piece (8) and the edge pressing fixing piece (9) are connected with the W-shaped water guide groove (3) through bolts (13).

3. The building-integrated photovoltaic bracket system according to claim 2, wherein: one side of the edge pressing (11) facing the photovoltaic assembly (4) is provided with silicone structural adhesive.

4. The building-integrated photovoltaic bracket system according to claim 1, wherein: and a waterproof adhesive tape (14) is arranged between every two adjacent photovoltaic modules (4) along the length direction of the W-shaped water chute (3).

5. The building-integrated photovoltaic bracket system according to claim 1, wherein: one side of the water tank (6) far away from the boss (5) is provided with a mounting plate (15), a screw (16) penetrates through the mounting plate (15), a screw hole is correspondingly formed in the purlin (2), and the lower end of the screw (16) extends into the screw hole.

Images