CN218714459U - BIPV mounting structure suitable for roof ridge is waterproof - Google Patents

Abstract

The utility model discloses a BIPV mounting structure suitable for roof ridge is waterproof, including roofing, photovoltaic module and gable, photovoltaic module sets up on the roofing, and the gable is located the roofing both sides, and the roofing is provided with the roof ridge, and two rows of photovoltaic modules of roof ridge department set up waterproof component, are equipped with drainage component between gable and the photovoltaic module; the waterproof assembly comprises a support frame and ridge tile base plates, the support frame is arranged at the end part of the photovoltaic assembly, and the ridge tile base plates are arranged on two adjacent support frames; the drainage assembly comprises a water cutting edge, a channel plate and purlines, and in the waterproof BIPV mounting structure for the roof ridge, under the condition that the roof ridge exists on the roof through the waterproof assembly, the gap between two adjacent photovoltaic assemblies is filled and shielded through the ridge tile base plate, so that the waterproof effect is achieved; can carry out fine discharge with the water that the roofing went up the water flow down through drainage component, prevent to flow backward simultaneously, play water-proof effects to gable and roofing.

Description

BIPV mounting structure suitable for roof ridge is waterproof

Technical Field

The utility model relates to a photovoltaic technology field, concretely relates to be applicable to waterproof BIPV mounting structure of ridge.

Background

Building Integrated Photovoltaic (PV) is a technology for integrating solar power generation products into buildings. Building-integrated photovoltaics (BIPV) is different from the form in which photovoltaic systems are Attached to Buildings (BAPV). Building integrated photovoltaics can be divided into two main categories: one is the combination of photovoltaic arrays and buildings. The other is the integration of photovoltaic arrays with buildings. Such as a photovoltaic tile roof, a photovoltaic curtain wall, a photovoltaic daylighting roof and the like. In both of these ways, the integration of photovoltaic arrays with buildings is a common form, particularly with building roofing.

At present, the photovoltaic building integration is applied to the in-process of building, and the following problems exist: 1. when the building with the ridge is used, the two rows of photovoltaic modules positioned at the top end do not have a good drainage structure, so that rainwater can easily enter the ridge through the two rows of photovoltaic modules positioned at the top end; 2. when the building with the gutter falls into water, although the building is provided with the rainwater pipe for drainage, when rainwater is large, the rainwater is easy to splash when being washed away from the ridge and then enters the ridge below the photovoltaic module, and water leakage exists for a long time.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome foretell not enough, provide a BIPV mounting structure suitable for ridge is waterproof.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the utility model provides a BIPV mounting structure suitable for ridge is waterproof, includes roofing, photovoltaic module and gable, and photovoltaic module sets up on the roofing, and the gable is located the roofing all around, and the roofing is provided with the ridge, is provided with waterproof component between two rows of photovoltaic module of ridge department, is equipped with drainage component between gable and the photovoltaic module.

The waterproof assembly comprises a support frame and ridge tile base plates, the support frame is arranged at the end part of the photovoltaic assembly, and the ridge tile base plates are arranged on two adjacent support frames;

the drainage assembly comprises a water cutting edge, a channel plate and a purline, the end of the roof is erected on a framework of the roof through the purline, the upper end of the water cutting edge is arranged in a concave part of a gable, the lower end of the water cutting edge is arranged in the channel plate, the channel plate is arranged between the roof and the gable, the cross section of the channel plate is U-shaped, one end of the channel plate is arranged on the lower end face of the roof, and the side wall of the other end of the channel plate is attached to the inner side of the water cutting edge.

Preferably, a water stopping glue is arranged between the channel plate and the water cutting edge, so that moisture or rainwater can be prevented from flowing backwards into the water cutting edge.

Preferably, the width of the ridge tile base plate is larger than the maximum distance between the tops of the two adjacent supporting frames, so that the ridge tile base plate can shield a gap between the two adjacent photovoltaic modules.

Preferably, the cross section of the ridge tile base plate is arc-shaped, and the arc-shaped angle and the length of the ridge tile base plate can be designed according to the ridges at different angles.

Preferably, a drain pipe is communicated with the lower part of the channel plate, and rainwater enters the drain pipe for draining after entering the channel plate.

Preferably, a water sliding plate is arranged on the roof and located between the photovoltaic module and the gable wall, and water flowing down from the photovoltaic module can be reliably guided into the channel plate below the photovoltaic module.

The utility model has the advantages that: among this BIPV mounting structure suitable for ridge is waterproof:

1. under the condition that a roof ridge exists on the roof, the waterproof assembly can fill and shield the gap between two adjacent photovoltaic assemblies through the ridge tile base plate, so that the waterproof effect is achieved;

2. can carry out fine discharge with the water that the roofing went up the water flow down through drainage component, prevent to flow backward simultaneously, play water-proof effects to gable and roofing.

Drawings

The invention will now be described, by way of example, with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged view of section I of FIG. 1;

fig. 3 is an enlarged view of a portion ii of fig. 1.

In the figure: 1. the roof, 2 photovoltaic module, 3 the support frame, 4 ridge tile backing plate, 5 gable, 6 the edge is received to the water cutting, 7 the passway board, 8 the purlin, 9 the aquaplane.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1-3, a BIPV mounting structure suitable for roof water-proofing includes roofing 1, photovoltaic module 2 and gable 5, and photovoltaic module 2 sets up on roofing 1, and gable 5 is located roofing 1 all around, and roofing 1 is provided with the roof ridge, is provided with waterproof component between two rows of photovoltaic module 2 of roof ridge department, is equipped with drainage component between gable 5 and photovoltaic module 2.

Waterproof assembly includes support frame 3 and ridge tile backing plate 4, and support frame 3 sets up the tip at photovoltaic module 2, and ridge tile backing plate 4 sets up on two adjacent support frames 3, and support frame 3 erects photovoltaic module 2 on roofing 1, because there is the angle in the ridge, then can fill the clearance between two adjacent photovoltaic module 2 through ridge tile backing plate 4 and shelter from, plays waterproof effect.

Drainage component includes that the limit 6 is received to the cutting, access plate 7 and purlin 8, the tip of roofing 1 erects on the skeleton of roofing 1 through purlin 8, the upper end setting that the limit 6 was received to the cutting is in the interior concave department of gable 5, the lower extreme that the limit 6 was received to the cutting is located access plate 7, access plate 7 is located between roofing 1 and the gable 5, access plate 7's cross-section is the U-shaped, access plate 7's one end is located roofing 1 lower terminal surface, the inboard laminating of limit 6 is received with the cutting to the lateral wall of access plate 7's the other end, the rainwater of roofing 1 on photovoltaic module 2 department flows down to gable 5 from the top, because access plate 7's effect, can carry out fine confluence with the rainwater, prevent to permeate in the gable 5, play waterproof effect, simultaneously can also prevent that the rainwater from flowing down to photovoltaic module 2 or roofing 1's bottom because reverse kinetic energy, cause the infiltration. Finally the water in the channel plate 7 is drained through a drain.

Specifically, a water stop glue is arranged between the channel plate 7 and the water cutting edge 6, so that moisture or rainwater can be prevented from flowing backwards into the water cutting edge 6.

Specifically, the width of ridge tile backing plate 4 is greater than the maximum interval at the top of two adjacent support frames 3, can guarantee that ridge tile backing plate 4 shelters from the space between two adjacent photovoltaic module 2.

Specifically, the cross section of the ridge tile backing plate 4 is arc-shaped, and the arc-shaped angle and the length of the ridge tile backing plate 4 can be designed according to the ridges at different angles.

Specifically, a drain pipe is communicated with the lower portion of the channel plate 7, and rainwater enters the drain pipe for draining after entering the channel plate 7.

Specifically, a water slide plate 9 is arranged on the roof 1, and the water slide plate 9 is located between the photovoltaic module 2 and the gable 5.

In light of the above, the present invention is not limited to the above embodiments, and various changes and modifications can be made by the worker without departing from the scope of the present invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides a BIPV mounting structure suitable for ridge is waterproof which characterized in that: the roof comprises a roof, photovoltaic modules and gable walls, wherein the photovoltaic modules are arranged on the roof, the gable walls are positioned around the roof, the roof is provided with a ridge, a waterproof module is arranged between two rows of photovoltaic modules at the ridge, and a drainage module is arranged between the gable walls and the photovoltaic modules;

the waterproof assembly comprises a support frame and ridge tile base plates, the support frame is arranged at the end part of the photovoltaic assembly, and the ridge tile base plates are arranged on two adjacent support frames;

the drainage component comprises a water cutting edge, a channel plate and a purline, the end part of the roof is erected on a framework of the roof through the purline, the upper end of the water cutting edge is arranged in an inward concave part of a gable, the lower end of the water cutting edge is arranged in the channel plate, the channel plate is arranged between the roof and the gable, the cross section of the channel plate is U-shaped, one end of the channel plate is arranged on the lower end face of the roof, and the side wall of the other end of the channel plate is attached to the inner side of the water cutting edge.

2. The BIPV mounting structure suitable for waterproofing a roof ridge according to claim 1, wherein: and a water stop glue is arranged between the channel plate and the water cutting edge.

3. The BIPV mounting structure suitable for waterproofing a roof ridge according to claim 1, wherein: the width of the ridge tile base plate is larger than the maximum distance between the tops of two adjacent supporting frames.

4. The BIPV mounting structure suitable for waterproofing a roof ridge according to claim 1, wherein: the cross section of the ridge tile backing plate is arc-shaped.

5. The BIPV mounting structure suitable for waterproofing a roof ridge according to claim 1, wherein: and a drain pipe is communicated with the lower part of the channel plate.

6. The BIPV mounting structure suitable for waterproofing a roof ridge according to claim 1, wherein: and a water skiing board is arranged on the roof and is positioned between the photovoltaic module and the gable wall.

Images