CN212957287U

CN212957287U - Integral roof of photovoltaic building integration

Info

Publication number: CN212957287U
Application number: CN202021421402.6U
Authority: CN
Inventors: 吴克明; 方少军; 杨新科; 胡湘江
Original assignee: Versolsolar Hangzhou Co ltd
Current assignee: Versolsolar Hangzhou Co ltd
Priority date: 2020-07-17
Filing date: 2020-07-17
Publication date: 2021-04-13
Anticipated expiration: 2030-07-17

Abstract

The utility model relates to a photovoltaic building integrated integral roof, which comprises a photovoltaic component and a component supporting beam for supporting the photovoltaic component, wherein the component supporting beam is longitudinally fixed on an M-shaped supporting piece, the M-shaped supporting piece is fixed on purlines of a roof through the folding edges of supporting legs at two sides, and a V-shaped water guide groove is erected below the M-shaped supporting piece; the side edge of the V-shaped water chute is fixed with the M-shaped supporting piece; the vertical gap of adjacent photovoltaic modules is provided with the Pi-shaped pressing strip, the transverse gap is provided with the T-shaped cover plate, the lower part of the vertical gap is provided with the U-shaped water guide groove, the vertical gap and the transverse gap are sealed by the Pi-shaped pressing strip and the T-shaped cover plate, the installation is convenient, organic materials for sealing such as rubber with exposed surfaces do not exist, the hidden danger of aging and water leakage does not exist, the stress assembly is separated from the water guide structure, the material strength performance utilization rate of the vertical assembly supporting beam is increased, and the economical efficiency is better.

Description

Integral roof of photovoltaic building integration

Technical Field

The utility model relates to a solar PV modules installs technical field, concretely relates to whole roof of photovoltaic building integration.

Background

The photovoltaic installation system for the roof of the industrial and commercial building at present mainly comprises two modes of clamping and fixedly attaching an aluminum clamping block to a roof and integrating a photovoltaic building by using a standard photovoltaic assembly and a structure for water proofing.

The aluminum clamping blocks clamp and fix the installation system attached to the roof, and due to the aging and corrosion of the original building roof, the installation system needs to be renovated and maintained after years, which brings extra maintenance expenditure; the waterproof structure has the advantages that the waterproof structure is waterproof through the standard photovoltaic assembly, the photovoltaic assembly is directly used for replacing the original roof to serve as a waterproof layer, the service life of the waterproof structure can be 25 years, and the waterproof structure has a wide market prospect.

However, in the existing market, a really mature and reliable photovoltaic building integrated product is lacked, and roof water leakage is often caused by the problems of too large gap of a photovoltaic assembly, aging of used waterproof rubber strips, rusting of a water chute and the like; the existing products in the market generally integrate a photovoltaic module supporting beam with a water guide structure, so that the waterproof function of the structure is not facilitated, and the cross section of the supporting beam cannot be further optimized to improve the strength and the material utilization rate.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a fixed and waterproof construction of crane span structure formula photovoltaic module, the vertical and horizontal waterproof water guide structure who adds bearing structure and back way percolating water of front road surface course is independent respectively to improve the structural strength and the waterproof performance of installing the system, guaranteed the economic benefits of the whole roof investment project of photovoltaic building integration.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

a photovoltaic building integrated integral roof comprises a photovoltaic assembly and an assembly supporting beam for supporting the photovoltaic assembly, wherein the assembly supporting beam is longitudinally fixed on an M-shaped supporting piece, the M-shaped supporting piece is fixed on a purlin of a roof in the transverse direction through folded edges of supporting legs at two sides, and a V-shaped water guide groove is erected below the M-shaped supporting piece; the side edge of the V-shaped water chute is fixed with the M-shaped supporting piece; the vertical gap of the adjacent photovoltaic modules is provided with a Pi-shaped pressing strip, the transverse gap is provided with a T-shaped cover plate, a U-shaped water guide groove is erected below the T-shaped cover plate, the Pi-shaped pressing strip is completely attached to the upper edge of the frame of the photovoltaic module, most of surface layer open water on the photovoltaic module is prevented from dripping downwards, and a first waterproof effect is achieved; the lower edge of the photovoltaic assembly frame is completely flatly attached to the assembly supporting beam, and a second waterproof effect is achieved; a small amount of leakage water drops into the V-shaped water guide groove downwards and finally flows into a roof gutter to a sewer pipe.

Preferably, M shape support piece is the elastomer, and middle bottom is unsettled, and unsettled design in the middle of the M shape support piece possesses certain elasticity, can play the effect of damping, reduces the impact of roofing vibrations to upper portion photovoltaic power generation system to through the connecting plate and the V-arrangement guiding gutter fixed connection of bending, connecting plate one end is fixed with M shape support piece's stabilizer blade, and the other end is fixed with the turn-ups of V-arrangement guiding gutter side department.

Preferably, a fixing groove is formed in the lower portion of the assembly supporting beam, a bolt penetrating through a round hole in the middle of the M-shaped supporting member is fixed to the fixing groove at any position, more than one round hole capable of penetrating the bolt is longitudinally formed in the middle of the M-shaped supporting member, the bolt is directly in threaded connection with a small opening of the fixing groove, or is connected with a nut placed in the fixing groove formed in the lower portion of the supporting beam, and the fixing groove of the assembly supporting beam is formed along the length direction, so that the assembly supporting beam can be fixedly installed on the M-shaped supporting.

Preferably, an assembly supporting beam upper portion is equipped with twice bead for the photovoltaic module of the left and right sides places the position location, and photovoltaic module frame butt bead for two adjacent photovoltaic module longitudinal gap's width is unanimous, and the pi-shaped layering of being convenient for laminates the photovoltaic module frame after inserting, and then guarantees water-proof effects.

Preferably, the U-shaped water guiding groove is fixedly connected with the U-shaped water guiding groove hanging piece through the folded edges at the two sides of the upper portion of the U-shaped water guiding groove hanging piece, a clamping groove is respectively formed in the left side and the right side of the bottom of the inner side of the U-shaped water guiding groove hanging piece, the clamping groove is clamped with the back side frames of the photovoltaic assemblies at the left side and the right side, the transverse gap between the left photovoltaic assembly and the right photovoltaic assembly can be accurately controlled through the clamping groove of the U-shaped water guiding groove hanging piece, the T-.

Preferably, waterproof adhesive tapes are arranged on two sides of the lower portion of the T-shaped head of the T-shaped cover plate, when the T-shaped cover plate is inserted into the transverse gap of the adjacent photovoltaic assembly, the waterproof adhesive tapes are tightly attached to the side frame of the photovoltaic assembly, the width formed by the waterproof adhesive tapes on the two sides is consistent with the transverse gap of the photovoltaic assembly, and most of surface layer open water can be blocked after the waterproof adhesive tapes are matched with the T-shaped cover plate.

Preferably, the two sides of the lower portion of the T-shaped cover plate are provided with elastic barb-shaped short edges, and when the T-shaped cover plate is inserted into the transverse gap of the adjacent photovoltaic assembly, the elastic barb-shaped short edges are tightly attached to the side frame of the photovoltaic assembly, so that the transverse gap is waterproof again, and the waterproof effect is further enhanced.

Preferably, a sealing rubber block is arranged at a cross seam formed by the intersection of the pi-shaped pressing strip and the T-shaped cover plate, and the sealing rubber block is arranged in the middle of a seam at the joint of adjacent pi-shaped pressing strips and is pressed up and down, so that water is prevented from entering from the joint of the adjacent pi-shaped pressing strips, and a waterproof effect is achieved.

Preferably, the left side and the right side of the sealing rubber block are provided with laterally protruding convex edges, and the convex edges are padded between the T-shaped cover plate and the pi-shaped pressing strip during installation, so that rainwater is prevented from entering from a joint of the pi-shaped pressing strip and the T-shaped cover plate.

Preferably, the sealing rubber block comprises a middle main body block and side wing blocks symmetrically arranged on two sides of the main body block, the main body block is clamped into an inner cavity formed by two vertical wing parts of the pi-shaped pressing strip, the side wing blocks are abutted against the two vertical wing parts of the pi-shaped pressing strip, and the protruding convex edge is arranged at the upper end part of each side wing block.

Compared with the prior art, the sealing device has the advantages that the sealing device adopts the Pi-shaped pressing strip and the T-shaped cover plate for sealing the longitudinal gap and the transverse gap, is convenient to install, does not have organic materials for sealing, such as rubber and the like with exposed surfaces, and has no hidden danger of ageing and water leakage; multiple waterproof measures are arranged at the gap and the gap distance is effectively controlled, so that the waterproof effect is further ensured; the water chute does not penetrate and fix, only conducts water, and does not serve as a supporting stress component, so that the structural design is lighter and thinner, and the waterproof performance is more excellent; the stress assembly is separated from the water guide structure, so that the material strength performance utilization rate of the longitudinal assembly supporting beam is high, and the economical efficiency is better.

Drawings

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

FIG. 2 is a schematic view of the connection structure between the M-shaped supporting member and the V-shaped water chute;

FIG. 3 is a schematic view of the longitudinal waterproof and water guiding structure of the present invention;

FIG. 4 is a schematic perspective view of the longitudinal waterproof and water-guiding structure of the present invention;

FIG. 5 is a schematic perspective view of the M-shaped supporting member, the assembly supporting beam, and the V-shaped water guiding groove fixing structure of the present invention;

FIG. 6 is a schematic view of the structure of the support beam of the present invention;

fig. 7 is a schematic view of the lateral waterproof and water guiding structure of the present invention;

FIG. 8 is a schematic perspective view of the U-shaped water chute hanger, the T-shaped cover plate, and the U-shaped water chute fixing structure of the present invention;

fig. 9 is a schematic perspective view of the lateral waterproof and water guiding structure of the present invention;

fig. 10 is a schematic structural view of the sealing rubber block of the present invention.

In the drawings: 1. photovoltaic module, 2, subassembly supporting beam, 3, M shape support piece, 4, purlin, 5, V-arrangement guiding gutter, 6, pi shape layering, 7, T shape apron, 8, U-shaped guiding gutter, 9, sealing rubber piece, 10, connecting plate, 11, photovoltaic module frame, 21, fixed slot, 22, bead, 31, M shape support piece's stabilizer blade, 51, turn-ups, 71, elasticity barb form minor face, 72, waterproof adhesive tape, 81, hem, 82, U-shaped guiding gutter pendant groove, 83, pendant draw-in groove, 91, protruding edge, 92, main part piece, 93, flank piece, 94, constant head tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

The embodiment discloses a photovoltaic building integrated integral roof, as shown in fig. 1-3, an M-shaped support member 3 is fixed on an original purline 4 (C-shaped steel) of the roof by a self-tapping screw, a longitudinal assembly support beam 2 is laid on the M-shaped support member 3, after a photovoltaic assembly 1 is laid, a pi-shaped pressing strip 6 is longitudinally adopted to fix the photovoltaic assembly 1, and meanwhile, the pi-shaped pressing strip 6 is tightly attached to a frame of the photovoltaic assembly 1 and the frame of the photovoltaic assembly 1 is tightly attached to the assembly support beam 2, so that rainwater can be effectively prevented from entering a longitudinal gap of the photovoltaic assembly 1; the transverse gap between the upper photovoltaic component 1 and the lower photovoltaic component 1 is filled with the T-shaped cover plate 7, and waterproof foam is filled between the side face of the T-shaped cover plate 7 and the frame of the photovoltaic component 1, so that surface layer open water can be effectively prevented from entering the transverse gap of the photovoltaic component 1; a V-shaped water chute 5 is erected below the M-shaped support 3 and is used for bearing a small amount of water leakage of the longitudinal gap of the photovoltaic module 1; a U-shaped water chute 8 is hung below the T-shaped cover plate 7 and is used for bearing leakage water of a transverse gap of the photovoltaic module 1, and the leakage water in the U-shaped water chute 8 is converged into the longitudinal V-shaped water chute 5 and finally discharged to a roof gutter; the cross rubber sealing blocks 9 are arranged at the cross positions of the longitudinal gaps and the transverse gaps of the photovoltaic module 1, the waterproof effect of the cross positions is achieved, the cross rubber sealing blocks 9 are pressed below the Pi-shaped pressing strips 6, direct sunlight irradiation can be avoided, the service life and the waterproof performance are better guaranteed, the Pi-shaped pressing strips 6 and the T-shaped cover plates 7 are made of aluminum alloy materials, the processing is easy, and the installation is light.

As shown in fig. 2, the middle of the M-shaped supporting member 3 is suspended and has certain elasticity, so that the damping effect can be achieved, the impact of roof vibration on the upper photovoltaic power generation system is reduced, the M-shaped supporting member 3 is fixedly connected with the V-shaped water chute 5 through the bent connecting plate, one end of the connecting plate 10 is fixed to the supporting leg 31 of the M-shaped supporting member, the other end of the connecting plate is fixed to the flanging 51 at the side edge of the V-shaped water chute 5, and the connecting plate 10 is diagonally arranged on two sides of the M-shaped supporting member 3.

As shown in fig. 3-6, the lower portion of the assembly supporting beam 2 is provided with a fixing groove 21, which can be fixed on the M-shaped supporting member 3 at any position, and the bottom of the middle of the M-shaped supporting member 3 is longitudinally provided with more than one round hole capable of passing through a bolt, in this embodiment, two bolts are directly connected with a small opening of the fixing groove 21 by a screw thread, or connected with a nut placed in the fixing groove 21 arranged at the lower portion of the assembly supporting beam 2, and the fixing groove 21 of the assembly supporting beam 2 is arranged along the length direction, so that the assembly supporting beam 2 can be installed and fixed with the M-; the upper part of the assembly supporting beam 2 is provided with two convex edges 22 which can play a role in positioning the photovoltaic assembly 1 left and right, the frame of the photovoltaic assembly 1 is abutted against the convex edges 22, so that the widths of longitudinal gaps of two adjacent photovoltaic assemblies 1 are consistent, the pi-shaped pressing strip 6 can be conveniently inserted and then attached to the frame of the photovoltaic assembly 1, and the waterproof effect is further ensured; the width of each pi-shaped pressing strip 6 is the sum of the width of the frame of the photovoltaic assembly 1 and the gap width of the photovoltaic assembly 1, the left side and the right side of each photovoltaic assembly 1 are fixed by two pi-shaped pressing strips 6, the pi-shaped pressing strips 6 are completely attached to the upper edge of the frame of the photovoltaic assembly 1, most of surface layer open water on the photovoltaic assembly 1 is prevented from dripping downwards, and a first waterproof effect is achieved; the lower edge of the frame of the photovoltaic assembly 1 is completely flatly attached to the assembly supporting beam 2, so that a second waterproof effect is achieved; a small amount of leakage water drops into the V-shaped water chute 5 downwards and finally converges into a roof gutter to a sewer pipe; the Pi-shaped pressing strip 6 is connected with the supporting beam 2 through the self-tapping screw, and the local thickening design of the self-tapping screw driving area in the middle of the upper part of the supporting beam 2 is adopted, so that the pulling resistance of the self-tapping screw after being driven is increased.

As shown in fig. 7-9, the horizontal waterproof and water guiding structure is provided, and the left and right sides of the bottom of the inner side of the hanging part of the U-shaped water guiding chute 8 are respectively provided with a clamping groove for clamping the back side frames of the left photovoltaic module 1 and the right photovoltaic module 1; the gap between the left photovoltaic module 1 and the right photovoltaic module 1 is accurately controlled through a clamping groove of the U-shaped water chute 8 hanging piece; the clamping groove is formed by the protrusions on the ground surface and the inner side surface of the U-shaped water guide groove 8 pendant, one side of the clamping groove on the left side and the right side is deep, the other side of the clamping groove on the left side is shallow, the protrusions of the clamping groove are slightly turned upwards at the opening, the left photovoltaic assembly 1 and the right photovoltaic assembly 1 are conveniently clamped into the clamping groove, and the U-shaped water guide groove 8 is fixedly connected with the two side hems 81 of the U-shaped water guide groove 8 pendant through.

In stuffing adjacent photovoltaic module 1's clearance with T shape apron 7, play three water-proof effects: the first waterproof layer is arranged at the position of the T-shaped head, the width of the first waterproof layer is consistent with the gap of the photovoltaic module 1, and most of surface layer open water is blocked; the second waterproof layer is arranged on the lower portion of a T-shaped head of the T-shaped cover plate 7, waterproof rubber strips 72 are arranged on two sides of the lower portion of the T-shaped head, the waterproof rubber strips 72 are tightly attached to side frames of the photovoltaic assembly 1, the width formed by the waterproof rubber strips 72 on the two sides is consistent with the transverse gap of the photovoltaic assembly 1, waterproof foam is filled between the waterproof rubber strips and the frames of the photovoltaic assembly 1, and most of surface layer open water can be blocked after the waterproof rubber strips are matched with the T-shaped cover plate 7; and thirdly, the lower part of the T-shaped cover plate 7 is waterproof, the two sides of the T-shaped cover plate are provided with elastic barb-shaped short edges 71, and the elastic barb-shaped short edges 71 are tightly attached to the side frame of the photovoltaic module 1, so that the transverse gap is waterproof again, the waterproof effect is further enhanced, and a small amount of leakage water drops into the U-shaped water guide groove 8 and then flows into the V-shaped water guide groove 5.

As shown in fig. 4 and 10, a waterproof structure at a cross seam position of the photovoltaic module 1 is provided, a sealing rubber block 9 is placed at the cross seam position, the sealing rubber block 9 is padded between the seams of adjacent pi-shaped pressing strips 6, the sealing rubber block 9 comprises a main body block 92 in the middle and side wing blocks 93 symmetrically arranged at two sides of the main body block 92, the main body block 92 is clamped into an inner cavity formed by two vertical wing parts of the pi-shaped pressing strips 6, the side wing blocks 93 are abutted against the two vertical wing parts of the pi-shaped pressing strips 6, two positioning grooves 94 are arranged at the bottom of the side wing blocks 93 and clamped on two convex ribs 22 at the upper part of the module supporting beam 2, so that the position of the sealing rubber block 9 can be effectively fixed and positioned, the pi-shaped pressing strips 6, the T-shaped cover plate 7 and the module supporting beam 2 are pressed up and down through the; the protruding convex edge 91 of the sealing rubber block 9 is arranged at the upper end part of the side wing block 93, and the convex edge 91 is padded between the T-shaped cover plate 7 and the pi-shaped pressing strip 6 when the sealing rubber block is installed, so that rainwater is prevented from entering from the joint of the pi-shaped pressing strip 6 and the T-shaped cover plate 7.

Claims

1. A photovoltaic building integrated integral roof, comprising a photovoltaic module, a module supporting beam for supporting the photovoltaic module, characterized in that: the assembly supporting beam is longitudinally fixed on the M-shaped supporting piece, the M-shaped supporting piece is fixed on a transverse purline of the roof through the folded edges of the supporting legs at two sides, a V-shaped water chute is erected below the M-shaped supporting piece, and the side edge of the V-shaped water chute is fixed with the M-shaped supporting piece; and a Pi-shaped pressing strip is arranged at the longitudinal gap of the adjacent photovoltaic modules, a T-shaped cover plate is arranged at the transverse gap, and a U-shaped water chute is erected below the T-shaped cover plate.

2. A building integrated photovoltaic integral roof as claimed in claim 1 wherein: the M-shaped supporting piece is an elastic body, the bottom of the middle of the M-shaped supporting piece is suspended, the M-shaped supporting piece is fixedly connected with the V-shaped water guide groove through a bent connecting plate, one end of the connecting plate is connected with a supporting leg of the M-shaped supporting piece, and the other end of the connecting plate is fixed with a flanging at the side edge of the V-shaped water guide groove.

3. A building integrated photovoltaic integral roof as claimed in claim 1 wherein: the lower part of the assembly supporting beam is provided with a fixing groove, and the fixing groove is fixed at any position through a bolt penetrating through a round hole at the middle bottom of the M-shaped supporting piece.

4. A building integrated photovoltaic integral roof as claimed in claim 1 wherein: and two ribs are arranged on the upper part of the assembly supporting beam and are used for positioning the placing positions of the photovoltaic assemblies on the left side and the right side.

5. A building integrated photovoltaic integral roof as claimed in claim 1 wherein: the U-shaped water guide groove is fixedly connected with the U-shaped water guide groove hanging piece through the folded edges at the two sides of the upper portion of the U-shaped water guide groove, the left side and the right side of the bottom of the inner side of the U-shaped water guide groove hanging piece are respectively provided with a clamping groove, and the clamping grooves are clamped with the back side frames of the photovoltaic modules at the left side and the right.

6. A building integrated photovoltaic integral roof as claimed in claim 1 wherein: waterproof adhesive tapes are arranged on two sides of the lower portion of the T-shaped head of the T-shaped cover plate, and when the T-shaped cover plate is inserted into the transverse gap of the adjacent photovoltaic assembly, the waterproof adhesive tapes are tightly attached to the side frame of the photovoltaic assembly.

7. A building integrated photovoltaic integral roof as claimed in claim 1 wherein: the two sides of the lower portion of the T-shaped cover plate are provided with elastic barb-shaped short edges, and when the T-shaped cover plate is inserted into a transverse gap of an adjacent photovoltaic assembly, the elastic barb-shaped short edges are tightly attached to side frames of the photovoltaic assembly.

8. A building integrated photovoltaic integral roof as claimed in claim 1 wherein: and a sealing rubber block is arranged at a cross seam formed by the intersection of the pi-shaped pressing strip and the T-shaped cover plate, and the sealing rubber block is arranged in the middle of a seam at the joint of the adjacent pi-shaped pressing strips.

9. A building integrated photovoltaic integral roof as claimed in claim 8 wherein: the left and right sides of the sealing rubber block are provided with laterally protruding convex edges, and the convex edges are arranged between the T-shaped cover plate and the Pi-shaped pressing strip in a cushioning mode when the sealing rubber block is installed.

10. A building integrated photovoltaic integral roof as claimed in claim 9 wherein: the sealing rubber block comprises a middle main body block and side wing blocks symmetrically arranged on two sides of the main body block, the main body block is clamped into an inner cavity formed by two vertical wing parts of the pi-shaped pressing strip, the side wing blocks are abutted against the two vertical wing parts of the pi-shaped pressing strip, and the protruding convex edges are arranged at the upper end parts of the side wing blocks.