CN207714639U - Integrated steel structure roofing photovoltaic system - Google Patents

Abstract

The utility model is related to integrated steel structure roofing photovoltaic systems, including girder, secondary beam, angle steel, purlin, supporting block, electric welding, module frame, briquetting, press strip, fluid sealant, adhesive waterproof tape, color steel tile, lateral cover board and photovoltaic panel；The girder both sides, which are respectively perpendicular, sets up a secondary beam；The girder takes the shape of the letter U, and girder both sides have girder shoulder and direction is inwardly, and the girder shoulder is suppressed with semi-circular indentation；The girder bottom outside is respectively welded with an angle steel, and the angle steel is connect by the first screw with purlin.The utility model has the beneficial effects that：The supporting block and some integral installation systems of die mould component groups of girder, convex that the utility model is taken the shape of the letter U using section, not only site operation is easy, saves material, also substantially increases roof drainage amount.Compared with traditional building integrated photovoltaic system, girder is fixed on purlin by the utility model by the angle steel in outside, without punching girder inner cavity, the water inside girder is avoided to enter building.

Description

Integrated steel structure roofing photovoltaic system

Technical field

The utility model belongs to solar-photovoltaic technology field, more particularly to a kind of integrated steel structure roofing photovoltaic system System.

Background technology

Distributed roofing photovoltaic power station have not appropriation of land, the advantages such as do not limited by photovoltaic index, be at low cost, obtained Widely apply.Photovoltaic plant is built on steel structural roof to be often directly erected at photovoltaic panel in color steel tile, is constructed Simply, cost is relatively low.But the requirement that photovoltaic plant runs 25 years is often not achieved in the service life of conventional color steel tile, or is building photovoltaic Corrosion has occurred for roofing color steel tile at the beginning of power station, needs replacing color steel roofing, increases photovoltaic plant cost of investment, limits Distributed roofing photovoltaic power station market is developed.

Integral type building photovoltaic system is a kind of technology being integrated into photovoltaic generation product in building.By adjusting roofing Support configurations effectively solve the technical problems such as waterproof, weather-proof, ventilation, solar energy photovoltaic panel are substituted color steel tile, to improve The service life of steel structural roof.The existing building integrated photovoltaic system in domestic and international market generally uses W type holders, photovoltaic Component directly rests on rubber block.The drawbacks of this structure is inner wall and the roof purline company that W-shaped holder is punched using screw It connects, the water in holder can enter building along the gap at screw hole in use, generate leak.In addition, in 25 time Rubber block aging in bottom can be such that photovoltaic panel junction loosens in the overhead utility runtime, and photovoltaic panel is caused to slide.

Utility model content

The purpose of the utility model is to overcome deficiencies in the prior art, provide a kind of integrated steel structure roofing photovoltaic system System.The purpose of this utility model is achieved through the following technical solutions：

This integrated steel structure roofing photovoltaic system, including girder, secondary beam, angle steel, purlin, supporting block, electric welding, component Frame, briquetting, press strip, fluid sealant, adhesive waterproof tape, color steel tile, lateral cover board and photovoltaic panel；The girder both sides are respectively perpendicular frame If a secondary beam；The girder takes the shape of the letter U, and girder both sides have girder shoulder and direction is inwardly, and the girder shoulder is suppressed with half Circular recess；The girder bottom outside is respectively welded with an angle steel, and the angle steel is connect by the first screw with purlin；

The girder top is equipped with supporting block, and the supporting block is in convex, and supporting block both sides have shoulder, intermediate to evagination Go out, prominent position is drilled with bolt hole；Supporting block shoulder top surface is stuck on the inside of girder shoulder, is fixed using electric welding；Two blocks of light Volt module frame is respectively rested on two side roof part of supporting block, and briquetting is equipped in adjacent two block assemblies frame gap, and the briquetting is logical Bolt is crossed to be connected with supporting block；

The module frame both ends are shelved on secondary beam intracavitary, and adjacent two block assemblies frame gap is filled using adhesive waterproof tape, Adhesive waterproof tape upper end uses fluid sealant waterproof sealing；The briquetting is equipped with press strip, and the press strip is parallel with girder；The press strip Fluid sealant waterproof sealing is used with the gap of module frame；

Lateral cover board is equipped between photovoltaic panel and color steel tile, the lateral cover board side is shelved on outermost girder shoulder In portion, the lateral cover board other side is connected along side by the second screw and color steel tile.

As priority：The press strip is in π shapes, is made of Ka Gai and card base, and the card base lower end, which has, gos deep into briquetting card slot The inside just grab of clamping briquetting.

As priority：The adhesive waterproof tape uses the silent double faced adhesive tapes of 3M.

As priority：The fluid sealant uses single-component silicone fluid sealant.

The utility model has the beneficial effects that：The supporting block and one of girder, convex that the utility model is taken the shape of the letter U using section The integral installation system of a little die mould component groups, not only site operation is easy, saves material, also substantially increases roof drainage amount. Compared with traditional building integrated photovoltaic system, girder is fixed on purlin by the utility model by the angle steel in outside, nothing Girder inner cavity need to be punched, the water inside girder is avoided to enter building.In addition the utility model is avoided by optimizing structure type Using rubber block, the whole service life of system is effectively increased.

Description of the drawings

Fig. 1 is the utility model three dimensional structure diagram；

Fig. 2 is the utility model node installation schematic diagram；

Fig. 3 is sectional views of the Fig. 1 along line A-A；

Fig. 4 is sectional views of the Fig. 1 along line B-B；

Fig. 5 is sectional views of the Fig. 1 along line C-C；

Fig. 6 is girder section schematic diagram；

Fig. 7 is press strip schematic cross-section；

Fig. 8 is supporting block three dimensional structure diagram.

Reference sign：Girder 1, secondary beam 2, girder shoulder 3, semi-circular indentation 4, angle steel 5, the first screw 6, purlin 7, supporting block 8, bolt hole 9, electric welding 10, module frame 11, briquetting 12, bolt 13, press strip 14, card lid 15, card base 16, grab 17, fluid sealant 18, adhesive waterproof tape 19, color steel tile 20, lateral cover board 21, along side 22, the second screw 23.

Specific implementation mode

The utility model is described further with reference to embodiment.The explanation of following embodiments is only intended to help to manage Solve the utility model.It should be pointed out that for those skilled in the art, not departing from the utility model principle Under the premise of, several improvements and modifications can be made to this utility model, these improvement and modification also fall into the utility model In scope of the claims.

The integrated steel structure roofing photovoltaic system includes girder 1, secondary beam 2, girder shoulder 3, semi-circular indentation 4, angle Steel 5, the first screw 6, purlin 7, supporting block 8, bolt hole 9, electric welding 10, module frame 11, briquetting 12, bolt 13, press strip 14, Card lid 15, card base 16, grab 17, fluid sealant 18, adhesive waterproof tape 19, color steel tile 20, lateral cover board 21, along side 22, the second screw 23 and photovoltaic panel.

Holder part includes mainly girder 1 and the secondary beam 2 vertical with girder 1, and 1 both sides of the girder are respectively perpendicular erection One secondary beam 2.As shown in fig. 6, the girder 1 takes the shape of the letter U, both sides have girder shoulder 3 and direction is inwardly, the girder shoulder 3 are suppressed with semi-circular indentation 4, have the function of water blocking, prevent external water from being penetrated into building along girder shoulder 3.The girder 1 Bottom outside is respectively welded with an angle steel 5, and angle steel 5 is connect by the first screw 6 with roof purline 7.1 top of the girder is equipped with branch Bracer 8, the supporting block 8 are in convex, and there is shoulder, centre to protrude outward for both sides, and prominent position is drilled with a bolt hole 9, spiral shell Screw thread is equipped in keyhole 9, as shown in Figure 6.8 shoulder top surface of the supporting block is stuck in 3 inside of girder shoulder, solid using electric welding 10 It is fixed.Two pieces of photovoltaic component frames 11 are respectively rested on 8 liang of side roof parts of supporting block, and pressure is equipped in adjacent two block assemblies frame, 11 gap Block 12, the briquetting 12 are connected by bolt 13 and supporting block 8.As shown in figure 5,11 both ends of the module frame are shelved on secondary beam 2 intracavitary, adjacent two block assemblies frame, 11 gap are filled using adhesive waterproof tape 19, and end uses 18 anti-watertight of fluid sealant on it Envelope.An elongated press strip 14 is stamped on the briquetting 12, the press strip 14 is parallel with girder 1, and the press strip 14 is in π shapes, by Ka Gai 15 and card base 16 form, 16 lower end of the card base, which has, gos deep into 12 card slot of briquetting the just grab 17 of clamping briquetting 12, press strip 14 use 18 waterproof sealing of fluid sealant with 11 gap of module frame.

The adhesive waterproof tape 19 uses the silent double faced adhesive tapes of 3M, the fluid sealant 18 to use single-component silicone fluid sealant.

As shown in Fig. 1,4, lateral cover board 21 is equipped between photovoltaic panel and color steel tile 20,21 side of lateral cover board is put It sets on outermost girder shoulder 3,21 other side of lateral cover board is connected by the second screw 23 with color steel tile 20 along side 22.

Claims (4)

1. a kind of integrated steel structure roofing photovoltaic system, which is characterized in that including girder (1), secondary beam (2), angle steel (5), purlin Item (7), supporting block (8), electric welding (10), module frame (11), briquetting (12), press strip (14), fluid sealant (18), adhesive waterproof tape (19), color steel tile (20), lateral cover board (21) and photovoltaic panel；Girder (1) both sides, which are respectively perpendicular, sets up a secondary beam (2)；Institute The girder (1) stated takes the shape of the letter U, and girder (1) both sides have girder shoulder (3) and direction is inwardly, and the girder shoulder (3) is suppressed with half Circular recess (4)；Girder (1) bottom outside is respectively welded with an angle steel (5), and the angle steel (5) passes through the first screw (6) and purlin Item (7) connects；

Girder (1) top is equipped with supporting block (8), and the supporting block (8) is in convex, and supporting block (8) both sides have shoulder, in Between protrude outward, prominent position is drilled with bolt hole (9)；Supporting block (8) the shoulder top surface is stuck on the inside of girder shoulder (3), is adopted It is fixed with electric welding (10)；Two pieces of photovoltaic component frames (11) are respectively rested on (8) two side roof part of supporting block, adjacent two block assembly side Briquetting (12) is equipped in frame (11) gap, the briquetting (12) is connected by bolt (13) and supporting block (8)；

Module frame (11) both ends are shelved on secondary beam (2) intracavitary, and adjacent two block assemblies frame (11) gap uses marine glue Band (19) is filled, and adhesive waterproof tape (19) upper end uses fluid sealant (18) waterproof sealing；The briquetting (12) is equipped with press strip (14), The press strip (14) is parallel with girder (1)；The press strip (14) and the gap of module frame (11) use fluid sealant (18) waterproof Sealing；

Lateral cover board (21) is equipped between photovoltaic panel and color steel tile (20), lateral cover board (21) side is shelved on outermost Girder shoulder (3) on, lateral cover board (21) other side is connected along side (22) by the second screw (23) and color steel tile (20).

2. integrated steel structure roofing photovoltaic system according to claim 1, which is characterized in that the press strip (14) is in π Shape is made of Ka Gai (15) and card base (16), and card base (16) lower end, which has, gos deep into briquetting (12) card slot just clamping pressure The grab (17) of block (12).

3. integrated steel structure roofing photovoltaic system according to claim 1, which is characterized in that the adhesive waterproof tape (19) Using the silent double faced adhesive tapes of 3M.

4. integrated steel structure roofing photovoltaic system according to claim 1, which is characterized in that the fluid sealant (18) is adopted Use single-component silicone fluid sealant.